these are the guidelines that now apply for telecommunications
*equipment. they do not apply for online services. these
guidelines can be useful in local advocacy efforts.
kelly
Subject: Equipment access
guide -- EQUIPACC.TXT
ARCHITECTURAL AND TRANSPORTATION BARRIERS COMPLIANCE BOARD
36 CFR Part 1193
[Docket No. 97-1]
RIN 3014-AA19
Telecommunications Act Accessibility Guidelines
AGENCY: Architectural and Transportation Barriers Compliance Board.
ACTION: Final rule.
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SUMMARY: The Architectural and Transportation Barriers Compliance Board
(Access Board or Board) is issuing final guidelines for accessibility,
usability, and compatibility of telecommunications equipment and customer
premises equipment covered by section 255 of the Telecommunications Act of
1996. The Act requires manufacturers of telecommunications equipment and
customer premises equipment to ensure that the equipment is designed,
developed, and fabricated to be accessible to and usable by individuals with
disabilities, if readily achievable. When it is not readily achievable to
make the equipment accessible, the Act requires manufacturers to ensure that
the equipment is compatible with existing peripheral devices or specialized
customer premises equipment commonly used by individuals with disabilities to
achieve access, if readily achievable.
DATES: Effective date: March 5, 1998.
FOR FURTHER INFORMATION CONTACT: Dennis Cannon, Office of Technical and
Information Services, Architectural and Transportation Barriers Compliance
Board, 1331 F Street, NW., suite 1000, Washington, DC 20004-1111. Telephone
number (202) 272-5434 extension 35 (voice); (202) 272-5449 (TTY). Electronic
mail address: [log in to unmask]
SUPPLEMENTARY INFORMATION:
Availability of Copies and Electronic Access
Single copies of this publication may be obtained at no cost by calling the
Access Board's automated publications order line (202) 272-5434, by pressing
1 on the telephone keypad, then 1 again, and requesting publication S-34
(Telecommunications Act Accessibility Guidelines Final Rule). Persons using a
TTY should call (202) 272-5449. Please record a name, address, telephone
number and request publication S-34. This document is available in alternate
formats upon request. Persons who want a copy in an alternate format should
specify the type of format (cassette tape, Braille, large print, or computer
disk). This document is also available on the Board's Internet site
(http://www.access-board.gov/rules/telfinal.htm).
This rule is based on recommendations of the Board's Telecommunications
Access Advisory Committee (TAAC or Committee). The Committee's report can be
obtained by contacting the Access Board and requesting publication S-32
(Telecommunications Access Advisory Committee final report). The report is
also available on the Board's Internet site (http://www.access-board.gov/
pubs/taacrpt.htm).
Background
On February 8, 1996, the President signed the Telecommunications Act of
1996. The Access Board is responsible for developing accessibility guidelines
in conjunction with the Federal Communications Commission (FCC) under section
255(e) of the Act for telecommunications equipment and customer premises
equipment. The guidelines are required to principally address the access
needs of individuals with disabilities affecting hearing, vision, movement,
manipulation, speech, and interpretation of information.
Section 255 provides that a manufacturer of telecommunications equipment or
customer premises equipment shall ensure that the equipment is designed,
developed, and fabricated to be accessible to and usable by individuals with
disabilities, if readily achievable. A provider of telecommunications
services shall ensure that the service is accessible to and usable by
individuals with disabilities, if readily achievable. Whenever either of
these is not readily achievable, a manufacturer or provider shall ensure that
the equipment or service is compatible with existing peripheral devices or
specialized customer premises equipment commonly used by individuals with
disabilities to achieve access, if readily achievable. Section 255(f)
provides that the FCC shall have exclusive jurisdiction in any enforcement
action under section 255. It also precludes an individual's private right of
action to enforce any requirement of section 255 or any regulation issued
pursuant to section 255.
On April 18, 1997, the Access Board issued a notice of proposed rulemaking
(NPRM) in the Federal Register (62 FR 19178) for accessibility, usability,
and compatibility of telecommunications equipment and customer premises
equipment covered by the Telecommunications Act of 1996. In addition to
proposing specific guidelines, the NPRM asked questions about some of the
proposed provisions. The proposed rule was based on recommendations of the
Board's Telecommunications Access Advisory Committee.
The Committee was convened by the Access Board in June 1996 to assist the
Board in fulfilling its mandate to issue guidelines under the
Telecommunications Act. The Committee was composed of representatives of
manufacturers of telecommunications equipment and customer premises
equipment; manufacturers of specialized customer premises equipment and
peripheral devices; manufacturers of software; organizations representing the
access needs of individuals with disabilities; telecommunications providers
and carriers; and other persons affected by the guidelines.
The Board received 159 comments in response to the NPRM. Comments were
received from 109 individuals who identified themselves as being hard of
hearing. Also, comments were received from 19 members of the
telecommunications industry and industry associations. Some of these comments
were received from manufacturers of specialized customer premises equipment
and peripheral devices, service providers and telecommunications equipment
and customer premises equipment. Additionally, 31 comments were received from
organizations representing persons with disabilities. Comments came from
state organizations representing individuals with disabilities, advocacy
organizations, independent consultants and academic organizations. Some of
the comments received were from members of the TAAC.
The majority of TAAC members supported the proposed rule but had
recommendations for changes to specific provisions. The majority of comments
received from individuals who identified themselves as being hard of hearing
supported the rule and specifically supported increasing volume controls on
customer premises equipment. A few comments raised by these individuals
included some issues that were not covered in the proposed rule. For example,
some of these comments recommended providing enhanced radio volume, providing
a device that displays through text what is being said on radio stations,
providing car radios equipped with headphone jacks and providing closed
captioning for television programs and motion pictures. Other comments
included recommendations for more efficient and effective telecommunications
relay service operations, designing accessible roadside emergency call boxes
which ensure two-way communications by people with hearing or speech
disabilities and designing homes with acoustically absorbent materials. These
issues are not covered by section 255 of the Telecommunications Act and are
outside of the Board's jurisdiction in this rulemaking.
General Issues
This section of the rule addresses general issues raised by comments filed
in response to the NPRM. Individual provisions addressed in this rule are
discussed in detail under the Section-by-Section Analysis below.
Rulemaking Authority of the Board and Effect of the Guidelines
Section 255(e) of the Telecommunications Act provides that the Access Board
shall develop guidelines for accessibility of telecommunications equipment
and customer premises equipment in conjunction with the Federal
Communications Commission. The Board is also required to review and update
the guidelines periodically.
Comment. Several comments from the telecommunications industry raised
questions about the relationship between the Board's guidelines and areas
within the FCC's jurisdiction. The commenters noted that the FCC has
exclusive jurisdiction with respect to any complaint under section 255 and
that the Senate report envisioned that the guidelines would "serve as the
starting point for regulatory action by the Commission." Some of the
commenters suggested that, absent rulemaking by the FCC, the guidelines are
not binding.
Response. The Telecommunications Act of 1996 is the result of a conference
committee which combined elements of the House and Senate bills. Section 255
is based on section 262 of the Senate bill (S. 652) which provided first for
the Board to develop accessibility guidelines for telecommunications
equipment and customer premises equipment, and then for the FCC to issue
regulations consistent with the guidelines developed by the Board. This
framework is similar to that established by Congress for implementing the
accessibility requirements under the Architectural Barriers Act (ABA) and the
Americans with Disabilities Act (ADA). The Board issues accessibility
guidelines based on its expertise and experience which serve as the basis for
further regulatory action by other agencies (General Services Administration,
Housing and Urban Development, Department of Defense, and the U.S. Postal
Service for the ABA; DOJ and the Department of Transportation for the ADA).
The conference committee bill dropped the provision requiring the FCC to
issue rules under section 255, which has resulted in questions raised by the
comments. Both the Senate bill and conference committee bill gave the FCC
exclusive jurisdiction with respect to complaints under section 255.
The FCC issued a notice of inquiry (NOI) on September 19, 1996, seeking
public comment regarding its responsibilities under section 255. The FCC
noted that it may select from a variety of approaches for enforcing section
255, including acting on a "complaint-by-complaint basis, without issuing any
rules or other guidance, beyond the guidelines issued by the Access Board" or
"adopt[ing] the Board's guidelines, either as adopted by the Board or with
revisions, as Commission rules after the appropriate Commission proceedings."
The FCC ultimately will decide which approach to take. However, regardless
whether the FCC proceeds with case-by-case determinations or rulemaking,
Congress clearly intended that the FCC's actions be consistent with the
Board's guidelines.
Declaration of Conformity
Comment. A few commenters from the telecommunications industry and
disability organizations urged the Board to adopt the Declaration of
Conformity as recommended by the TAAC. In the NPRM, the Board stated that
"since enforcement for section 255 is under the exclusive jurisdiction of the
FCC, this rule does not address the Declaration of Conformity". The United
States Telephone Association (USTA) believed that the Board should require a
Declaration of Conformity and that it would be wrong to merely regard the
Declaration of Conformity as a complaint resolution tool. USTA states that a
"Declaration of Conformity assures the purchaser of the telecommunications
equipment and/or customer premises equipment that the manufacturer has
complied with section 255. It can also serve to educate the customer about
what to do to communicate with the manufacturer, how to request alternate
forms of user information, etc. Without a Declaration of Conformity, a
customer may not be able to determine if the product to be purchased has been
reviewed for accessibility." The United Cerebral Palsy Associations (UCPA)
recommended that the final rule include a requirement for a Declaration of
Conformity and that it should be on a separate piece of paper to make it more
visible.
Response. The Access Board recognizes that there is a need to have an
effective and efficient enforcement process for section 255, including the
possible need for a Declaration of Conformity, as recommended by the TAAC.
However, it is the FCC, and not the Access Board, which is responsible for
enforcing section 255 through a complaint process. The Access Board has not
addressed issues in this final rule that are clearly within the FCC's
jurisdiction. The information not related to compliance that was recommended
to be included in a Declaration of Conformity, primarily the requirement to
supply a point of contact, is required by section 1193.33 of this rule.
Accessibility Engineering Specialists
Comment. The NPRM referred to the establishment of an Association of
Accessibility Engineering Specialists under the National Association of Radio
and Telecommunications Engineers. In its comments, USTA suggested that groups
such as this should more appropriately be structured under an organization
such as the American National Standards Institute (ANSI).
Response. As stated in the NPRM, the TAAC "report also recommends the
creation of a technical subgroup of a professional society which could train
and eventually certify 'accessibility specialists' or engineers. As a result
of work by several Committee members, such a group has already been created.
The National Association of Radio and Telecommunications Engineers (NARTE), a
private professional association, recently formed the Association of
Accessibility Engineering Specialists. This association is expected to
sponsor conferences and workshops, disseminate information, and suggest
course curricula for future training and certification." The Board
appreciates the fact that NARTE established the Association of Accessibility
Engineering Specialists and believes that this group will contribute to
advances in the field of accessible telecommunications equipment and customer
premises equipment and assist in maintaining a cooperative dialogue among
manufacturers, product developers, engineers, academicians, individuals with
disabilities, and others involved in the telecommunications equipment design
and development process. Commenters who wish to have an association created
under the auspices of ANSI, or any similar organization, should approach that
organization. The Board encourages any efforts to move accessibility design
into the mainstream of telecommunications and will work cooperatively with
any established group to further those ends.
Market Monitoring Report
Comment. The NPRM discussed that the Board intends to compile a market
monitoring report on a regular basis and make it available to the public.
USTA commented that the Board did not offer what type of information it will
specifically monitor, how often, and to what end. UCPA supported a market
monitoring report and suggested that the Board specify an annual report. UCPA
recommended that the report should be structured for rapid turnaround after
the close of the monitoring period and that successful access solutions be
highlighted.
Response. The Board intends to compile a market monitoring report after the
guidelines are published and make it available to the public. At this point,
the Board does not have a schedule for when the first report will begin or
when it will be issued, since it must be incorporated into the Board's on-
going research and technical assistance program. The report will address the
state of the art of customer premises equipment and telecommunications
equipment and the progress of making this equipment accessible and identify
successful access solutions. Since the Board is required to review and update
these guidelines periodically, information from this report will assist the
Board in determining what provisions of the guidelines may need to be revised
or whether new provisions need to be added. In particular, some issues will
be targeted for examination, such as redundancy and selectability, the effect
of hearing aid interference on bystanders, and whether persons with hearing
impairments continue to report having trouble using public pay telephones.
These issues are discussed further in the section-by-section analysis.
In addition, the Board intends to investigate whether the report might be
compiled in cooperation with another government entity or private sector
organization. For example, the National Institute on Disability and
Rehabilitation Research (NIDRR) funds a variety of research projects and
centers, including a research center devoted to telecommunications. Also,
some private sector organizations have begun highlighting accessible products
in reports and trade shows. The Board intends to explore whether it would be
appropriate to produce the market monitoring report in conjunction with one
of those groups or companies.
Section-by-Section Analysis
This section of the preamble summarizes each of the provisions of the final
rule and the comments received in response to the proposed rule. Where the
provision in the final rule differs from that of the proposed rule, an
explanation of the modification is provided. The text of the final rule
follows this section. An appendix provides examples of non-mandatory
strategies for addressing these guidelines.
Subpart A--General
Section 1193.1 Purpose
This section describes the purpose of the guidelines which is to provide
specific direction for the accessibility, usability, and compatibility of
telecommunications equipment and customer premises equipment covered by the
Telecommunications Act of 1996. Section 255(b) of the Act requires that
manufacturers of telecommunications equipment or customer premises equipment
shall ensure that the equipment is designed, developed, and fabricated to be
accessible to and usable by individuals with disabilities, if readily
achievable. Section 255(d) of the Act requires that whenever it is not
readily achievable to make a product accessible, a manufacturer shall ensure
that the equipment is compatible with existing peripheral devices or
specialized customer premises equipment commonly used by individuals with
disabilities to achieve access, if readily achievable. The requirement for
the Board to issue accessibility guidelines is contained in section 255(e).
No substantive comments were received and no changes have been made to this
section in the final rule.
Section 1193.2 Scoping
The NPRM stated that section 255 is intended to apply to all equipment
since the Board "finds no evidence in the statute or its legislative history
that Congress intended individuals with disabilities to have fewer choices in
selecting products than the general public" and concluded that all products
are subject to the guidelines.
Comment. The majority of comments, including the majority of those from
TAAC members, supported the position that all products are subject to the
guidelines. Individuals with disabilities and advocacy groups generally said
they wanted the opportunity to choose among the features of various products
offered to the general public, not to be forced to settle for the features a
manufacturer decided to offer on the "accessible" product. "Having all the
models of equipment carry accessibility features is a must for me," said one.
"My needs are not necessarily the same as another hearing-impaired person's.
Among the products that must have accessibility features are pagers, which
must have vibrating mode or else they are useless. I want to have the choice
to pick the right kind of vibrating pager based on my needs." The
Massachusetts Assistive Technology Partnership supported the Board's finding
that section 255 applies on a product-by-product basis. It said "[w]ithout a
clear requirement that accessibility be provided at the individual product
level, customers with disabilities risk being caught forever in the same
unacceptable circumstance we have experienced to date: a telecommunications
marketplace which segregates accessible products from mainstream products,
with all the concomitant problems which "special" production entails--lesser
availability, greater cost, poorer quality and lack of full compatibility.
While there will surely be instances where a manufacturer will choose to
offer additional accessibility features in one or two products in a product
line where it was not readily achievable to offer those features in every
product in a product line, the proposed rule in no way prevents a
manufacturer from making such an offering. The essential consideration is
that accessibility, usability and compatibility must be properly considered
at the individual product level * * * ."
USTA, the principal trade association of the local exchange carrier
industry, and a TAAC member, agreed that all telecommunications products and
customer premises equipment should be subject to the guidelines. It stated
that "[t]he issue of accessibility must relate to the whole universe of
technology. To do otherwise will create a hierarchy of opportunities for
customers--a hierarchy that could seriously jeopardize telecommunications
service delivery." Bell Atlantic and NYNEX also supported a product-by-
product approach to encourage manufacturers of telecommunications equipment
and customer premises equipment to make accessible the widest array of
functionally different products. Bell Atlantic and NYNEX were concerned that
appropriately equipped telecommunications equipment and customer premises
equipment should be available to implement or complement their services and
that without needed network equipment, service providers could be unable to
meet the telecommunications needs of people with disabilities in an efficient
manner. Bell Atlantic and NYNEX also made the point that accessibility can
often be achieved only through compatible customer premises equipment,
operating with network services. They stated that "[u]nless manufacturers are
obligated to make a variety of products with different functions accessible,
assuming such accessibility is readily achievable, the accessibility options
available to service providers and their customers could be severely
limited." Bell Atlantic and NYNEX added that even without a legal mandate,
adding readily achievable accessibility features to products and services is
simply good business.
On the other hand, manufacturers and the Telecommunications Industry
Association (TIA) uniformly said the guidelines should be applied to product
"lines" or "families" and the Consumer Electronics Manufacturers Association
(CEMA) said compliance should take into account the "market as a whole" with
respect to accessibility. In particular, Ericsson, questioned the NPRM
interpretation by saying "while there is no language in the statute which
specifically provides guidance on whether all equipment or some equipment
must be made accessible or compatible, there is similarly no language in the
legislative history which supports the Board's conclusion". Some
manufacturers read the word "equipment" in the statute as plural, which they
felt supported their claim for coverage of groups of products rather than
individual products.
Several manufacturers drew analogies to portions of facilities covered by
the Americans with Disabilities Act (ADA), such as stadium seats, hotel
rooms, and telephones in a bank as giving weight that only some
telecommunications equipment and customer premises equipment needs to be
accessible. The commenters said that the ADA has recognized that proper
application of the readily achievable definition, which defines the scope of
the obligations under the ADA, will, in some circumstances, result in people
with disabilities having accessibility but fewer choices than the general
public. The commenters concluded that all products should not be required to
be accessible if other models of a similar product with comparable features
and at comparable cost are available.
These commenters also added that with a broad range of accessibility needs
to be met, it is unrealistic to expect that a manufacturer could provide this
range of products within the limits of the readily achievable limitation.
These commenters further said that varying and occasionally conflicting
accessibility needs of persons with different disabilities virtually dictate
a product family approach. The Information Technology Industries Council
commented that accessibility issues raised by section 255 require the Board
to consider cost impact issues of far greater scope and complexity, involving
the recurring costs of designing and manufacturing complex products sold in a
highly competitive marketplace characterized by rapid technological
innovation. Because competitive profit margins are thin, company survival and
continuing research and innovation are extremely sensitive to cost increases.
Many telecommunications industry commenters expressed concern that the
guidelines will have an inhibiting effect if they discourage equipment
manufacturers from developing specialized products targeted to the differing,
and sometimes mutually inconsistent, needs of individuals with differing
disabilities.
Response. Section 255 requires manufacturers to ensure that
telecommunications equipment and customer premises equipment are designed,
developed and fabricated to be accessible. Manufacturers seem to argue that
the statute can be read as having a second qualifier, in addition to readily
achievable. That is, manufacturers argue that some telecommunications
equipment and some customer premises equipment should be designed developed
and fabricated to be accessible if readily achievable, unless comparable
equipment is available.
Manufacturers claim the statute should be read as applying to product
"lines" or "families" rather than individual products as long as accessible
products with comparable, substantially comparable, or similar features are
available at a comparable cost. These commenters did not provide a definition
of a product line or family. It is not clear whether all cellular telephones
are to be regarded as part of the same product line, so that only one needs
to be accessible to a person with a disability, even if it were readily
achievable to make others accessible. The comment from CEMA goes further by
suggesting that, if one manufacturer makes a cellular phone accessible to
blind persons, another manufacturer would not need to even consider whether
it were readily achievable to do so.
Aside from the fact that such an interpretation is not supported by the
plain statutory language, it does not answer the question of what is
comparable. Suppose a person with a disability wants the features on product
A, but product B has the accessibility features. For example, product A is a
pager with a lighted display which can be seen in dim light, and product B is
a pager without the lighted display but with a vibrator to alert a deaf
person. It is not clear what "comparable" feature is the substitute for not
having the lighted display. If the deaf person works in a low-light
environment, the lighted display may be needed. Moreover, if the deaf person
also has a visual impairment, a situation common among older persons, the
lighted display may be part of the accessibility that person needs.
Similarly, a modem manufacturer might offer V.18 compatibility only on its
9600 bps model, not its 56k bps model. Conversely, it may provide V.18
capability only on its fast modem, but some service providers do not support
high speed modems. Furthermore, commenters provided no indication of how much
of a price difference is to be considered as comparable. The statute provides
only one reason for not making telecommunications equipment and customer
premises equipment accessible, usable, or compatible and that is that it is
not readily achievable. The clear meaning of the statute is, if it is readily
achievable to put a vibrator in product A and product B, and V.18 capability
in more than one modem, a manufacturer is required to do so.
The Board has acknowledged that it may not be readily achievable to make
every product accessible or compatible. Depending on the design, technology,
or several other factors, it may be determined that providing accessibility
to all products in a product line is not readily achievable. The guidelines
do not require accessibility or compatibility when that determination has
been made, and it is up to the manufacturer to make it. However, the
assessment as to whether it is or is not readily achievable cannot be
bypassed simply because another product is already accessible. For this
purpose, two products are considered to be different if they have different
functions or features. Products which differ only cosmetically, where such
differences do not affect functionality, are not considered separate
products. An appendix note has been added to clarify this point.
In drawing analogies from the ADA, the correct connection is between
telecommunications equipment and customer premises equipment and the
facility, not individual elements within the facility. For example, all
theaters in a multi-theater complex must be accessible so that persons with
disabilities can choose which films to see, not only a few theaters with
"comparable" movies; all stadiums must be accessible, not just one for
baseball, one for football, and one for soccer. Disabled persons' seat
choices are limited but not whether they can see movie A or movie B. Also,
within a phone bank, the one accessible phone is simply at a lower position
but it is not merely "comparable" to the other phones in the bank, it is
identical.
Finally, many of the commenters contend that certain requirements are not
readily achievable if applied across all products. Several mentioned the
incompatibility or conflict between solutions for different disabilities,
though no examples of such conflicts were provided. If such designs are truly
not readily achievable, the guidelines do not require accessibility or
compatibility. Thus, the guidelines would be satisfied.
Comment. CEMA wanted the Board to take into account that the cost of
retooling an assembly line is prohibitively expensive if done before the
production cycle lifespan of a product has come to an end. CEMA recommended
that the guidelines should be modified to recognize the need for
manufacturers to complete production runs prior to making design changes and
asked for a "grace period" after having complied with current guidelines
before having to retool their assembly lines and update to any new
guidelines.
Response. No explicit "grace period" is needed since it is built into the
determination of readily achievable.
Comment. The majority of comments praised the Board for adhering to the
recommendations of the TAAC report. However, several comments said the NPRM
had converted numerous TAAC voluntary recommendations into mandatory
obligations.
Response. The Board's guidelines are rules under the meaning of the
Administrative Procedures Act 1 and are appropriately written in mandatory
language. Nevertheless, the guidelines maintain the TAAC recommendations
insofar as they were written as "shall" or "should." Some of the TAAC
recommendations which used "should" were placed in the appendix, such as the
recommendation that manufacturers encourage distributors to adopt information
dissemination programs similar to theirs, or to incorporate redundancy and
selectability in products. Where the Board felt the provision was important
enough that it belonged in the text, it was converted to a requirement. How
each requirement is implemented will be determined as each manufacturer deems
appropriate for its own operation, such as the requirement to consider
including persons with disabilities in product trials.
Note 1 See 5 U.S.C. 551 (4).
Comment. One commenter recommended that the guidelines be clarified to
explain that they apply solely to equipment used primarily for access to
telecommunications services. The commenter pointed out that the Senate report
exempted equipment used to access "information services". The commenter
indicated that the Senate's definition of telecommunications, as set forth in
the report "excludes those services, such as interactive games or shopping
services or other services involving interaction with stored information,
that are defined as information services."
Response. Information services are not covered by these guidelines. The Act
defines what is telecommunications equipment and customer premises equipment.
If a product "originates, routes or terminates telecommunications" it is
covered whether the product does that most of the time or only a small
portion of the time. Of course, only the functions directly related to a
product's operation as telecommunications equipment or customer premises
equipment are covered by the guidelines. A set-top-box which converts a
television so that it can send e-mail or engage in Internet telephony, for
example, is customer premises equipment when performing those functions. The
Senate report only excludes those services described as "information
services". It does not mean any equipment which receives such services is
excluded if the product is also customer premises equipment.
Comment. One comment objected to the Board's exclusion of existing products
for coverage by the guidelines, noting that the word "new" does not appear in
the statute. Many current products will be on the market for some time and
should be required to be retrofitted to be accessible or compatible, if
readily achievable.
Response. While it is true that the word "new" does not occur in the
statute, the Senate report clearly says that the Board's guidelines should be
"prospective in nature", intended to apply to future products. In addition,
the statute applies to equipment designed, developed and fabricated which the
Board interprets to mean that the Act applies to equipment for which all
three events occurred after enactment of the Act. There is no requirement to
retrofit existing equipment.
Section 1193.3 Definitions
With a few exceptions discussed below, the definitions in this section are
the same as the definitions used in the Telecommunications Act of 1996.
Accessible. Subpart C contains the minimum requirements for accessibility.
Therefore, the term accessible is defined as meeting the provisions of
Subpart C.
Comment. A few commenters suggested making the definition more general by
using a definition which did not refer to Subpart C.
Response. Using a more general definition would make the term "accessible"
subjective and potentially allow the term to be used to describe products
which do not comply with these guidelines. Therefore, the definition has not
been changed.
Alternate Formats. Certain product information must be made available in
alternate formats for the product to be usable by individuals with
disabilities. Common forms of alternate formats are Braille, large print,
ASCII text, and audio cassettes. Further discussion of alternate formats is
provided in section 1193.33 and in the appendix.
No substantive comments were received and no changes have been made to this
definition.
Alternate Modes. Alternate modes are different means of providing
information to users of products including product documentation and
information about the status or operation of controls. For example, if a
manufacturer provides product instructions on a video cassette, captioning or
video description would be required. Further discussion of alternate modes is
provided in section 1193.33 and in the appendix.
Comment. Some commenters noted that the proposed definition did not
actually define alternate modes, but simply gave a listing of examples. Also,
several commenters, including the American Council of the Blind and the
American Foundation for the Blind recommended that the term "audio
description" be changed to "video description" because the term "video" more
accurately describes the means of providing the information.
Response. A definition is provided for the term "alternate modes" in the
final rule. In addition, the term "audio description" has been changed to
"video description."
Compatible. Subpart D contains the minimum requirements for compatibility
with existing peripheral devices or specialized customer premises equipment
commonly used by individuals with disabilities to achieve access. Therefore,
the term compatible is defined as meeting the provisions of Subpart D.
Comment. One commenter noted that the term "compatible" is too nebulous and
broad and recommended substituting the word interoperable for compatible.
Response. The term "compatible" is taken directly from the statute.
Therefore, the term has been retained in the final rule.
Customer Premises Equipment. This definition is taken from the
Telecommunications Act. Equipment employed on the premises of a person, which
can originate, route or terminate telecommunications, is customer premises
equipment. "Person" is a common legal term meaning an individual, firm,
partnership, corporation, or organization.
Customer premises equipment can also include certain specialized customer
premises equipment which are directly connected to the telecommunications
network and which can originate, route, or terminate telecommunications.
Equipment with such capabilities is covered by section 255 and is required to
meet the accessibility requirements of Subpart C, if readily achievable, or
to be compatible with specialized customer premises equipment and peripheral
devices according to Subpart D, if readily achievable.
Comment. The proposed rule asked for comments on the definition of customer
premises equipment. Some commenters stated that it was unclear whether
software was included in the definition. Also, it was suggested by one
commenter that the definition include "wireless systems". Some comments from
industry, including Matsushita Electric Corporation of America suggested that
the definition of customer premises equipment be changed "to confine the
applicability of the guidelines . . . to equipment the primary use of which
is telecommunications, thus exclud[ing] such products as television
receivers, VCRs, set-top boxes, computers without modems, and other consumer
products the primary purpose of which is other than for telecommunications."
Self Help for Hard of Hearing People (SHHH) and many individuals who are hard
of hearing suggested clarifying the definition to include public pay
telephones as examples of customer premises equipment.
Response. If a product "originates, routes or terminates
telecommunications" it is customer premises equipment and thus covered by the
Act whether the product does that most of the time or only a small portion of
the time. Only the functions directly related to the product's operation as
customer premises equipment are covered. For example, the buttons, prompts,
displays, or output and input needed to send and receive e-mail or an
Internet telephone call are covered. Other functions not related to
telecommunications, such as starting a program on a computer or changing
channels on a combination television-Internet device would not be covered.
The term "customer premises equipment" is defined in the Telecommunications
Act and the definition in the NPRM was taken directly from the Act. The
definition has been retained in the final rule without change.
The guidelines do not differentiate between hardware, firmware or software
implementations of a product's functions or features, nor do they
differentiate between functions and features built into the product and those
that may be provided from a remote server over the network. The functions are
covered by these guidelines whether the functions are provided by software,
hardware, or firmware. As the NPRM indicated, customer premises equipment may
also include wireless sets.2 Finally, public pay telephones are considered
customer premises equipment.3
Note 2 See Declaratory Ruling, DA 93-122 , 8 FCC Rcd 6171, 6174 (Com. Car.
Bur. 1993) (TOCSIA Declaratory Ruling), recon. pending (finding that
definition of "premises" includes "locations" such as airplanes, trains and
rental cars, despite the fact that they are mobile).
Note 3 See, Implementation of the Pay Telephone Reclassification and
Compensation Provisions of the Telecommunications Act of 1996, 96-128,
November 8, 1996.
Manufacturer. This definition is provided as a shorthand reference for a
manufacturer of telecommunications equipment and customer premises equipment.
Comment. Several commenters recommended that the definition be modified to
include subcomponent manufacturers, manufacturers of component parts which
can convert a piece of equipment into customer premises equipment, and
software manufacturers that design software to be used in telecommunications
or customer premises equipment. The National Association of the Deaf
recommended that the definition of manufacturer be flexible so that it does
not unduly restrict the type of entity that is covered by section 255.
Another commenter recommended that the term manufacturer be defined to
include those who assemble the component parts into a final product.
Response. For the purposes of these guidelines, a manufacturer is the
entity which makes a product for sale to a user or to a vendor who sells to a
user. This would generally be the final assembler of separate subcomponents;
that is, the entity whose brand name appears on the product. Acme Computers,
for example, would be responsible for ensuring accessibility to any of its
computers which can originate, route or terminate telecommunications. Such a
computer might include a General Products modem which is itself a
manufacturer because it sells General Products modems directly to the public.
Acme Computers would be responsible for ensuring that it obtained the
accessible General Products modem for inclusion in its computers. Also, Acme
would ensure, through contractual provisions, purchase order stipulations, or
any other method it chooses, that subcomponent suppliers who were not
themselves manufacturers, provided accessible subcomponents where available.
Thus, Acme can share or distribute responsibility for design, development and
fabrication of accessible products. The definition has been clarified in the
final rule.
Peripheral Devices. Section 255 (d) of the Act provides that when it is not
readily achievable to make telecommunications equipment or customer premises
equipment accessible, manufacturers shall ensure that the equipment is
compatible with existing peripheral devices or specialized customer premises
equipment commonly used by individuals with disabilities to achieve access,
if readily achievable. No definition is provided in the Act but the term
peripheral devices commonly refers to audio amplifiers, ring signal lights,
some TTYs, refreshable Braille translators, text-to-speech synthesizers and
similar devices. These devices must be connected to a telephone or other
customer premises equipment to enable an individual with a disability to
originate, route, or terminate telecommunications. Peripheral devices cannot
perform these functions on their own.
No substantive comments were received and no changes have been made to this
definition.
Product. This definition is provided as a shorthand reference for
telecommunications equipment and customer premises equipment.
No substantive comments were received and no changes have been made to this
definition.
Readily Achievable. Comment. Many comments from persons with disabilities
and their organizations wanted the Board to apply stricter criteria, such as
"undue burden," rather than readily achievable. The National Association of
the Deaf (NAD) said it is critical that the readily achievable analysis under
section 255 be performed on a case-by-case basis, rather than through a
numerical or other standard formula for all telecommunications equipment. NAD
also supported the NPRM proposal to consider design expertise, knowledge of
specific manufacturing techniques, or the availability of certain kinds of
technological solutions among a company's available resources. Further, a
readily achievable determination made under section 255 should parallel a
readily achievable analysis under the Americans with Disabilities Act (ADA)
in that it should consider the entire operations and resources of a parent
corporation and its subsidiaries in determining the manufacturer's resources.
Manufacturers, on the other hand, did not feel the resources of a parent
company should be taken into account. They pointed out the unique financial
configurations of telecommunications companies as being divided into separate
design units, each with its own budgetary resources and fiscal
responsibilities.
Response. The use of the term readily achievable rather than undue burden
is a statutory requirement. The Board cannot change the term. What the
guidelines can do is provide some guidance to manufacturers as to how to
relate the readily achievable factors from the ADA to the telecommunications
industry.
Both the statutory definition of readily achievable and the Department of
Justice (DOJ) regulations include the resources of a parent company as a
factor. However, such resources are considered only to the extent those
resources are available to the subsidiary. If, for example, the subsidiary is
responsible for product design but the parent company is responsible for
overall marketing, it may be appropriate to expect the parent company to
address some of the marketing goals. If, on the other hand, the resources of
a parent company are not available to the subsidiary, they may not be
relevant. This determination would be made on a case-by-case basis.
Comment. Manufacturers were split on the issue of factors to be considered,
some saying the ADA factors should be applied without amplification and
others saying the unique character of telecommunications required a tailored
set of criteria. Ericsson supported the NPRM adoption of the formal
definition of readily achievable as "easily accomplishable and able to be
carried out without much difficulty or expense." However, Ericsson
recommended that any additional language which explains the factors to be
considered in determining whether it is readily achievable for a manufacturer
to make its equipment accessible or compatible, should be deleted. Ericsson
commented that the FCC, pursuant to its complaint jurisdiction, is in a
better position than the Access Board to determine what factors in the
telecommunications context are relevant to the term readily achievable.
Response. The final rule includes an appendix note that discusses factors
to be considered in making a determination whether an action is readily
achievable or not. The factors are provided for guidance only and are neither
presented in any particular order or given any particular weight. The Board
expects that the FCC will set forth the factors which it will use to judge
compliance. Once that occurs the Board will revise the appendix to these
guidelines, as appropriate. However, in the absence of specific criteria
issued by the FCC, the Board believes it is desirable to provide interim
guidance.
Comment. Several manufacturers suggested adding readily achievable factors
such as weighing the removal of one barrier against another, whether the
solution would limit mass market appeal, "user-friendliness," and that one
barrier should not be viewed in isolation to the availability of a comparable
product that was accessible.
Several also said the removal of a barrier should not result in a
fundamental alteration of the product. Motorola cited the DOJ ADA regulation
as support that "accessibility or compatibility features that would
fundamentally alter the nature of the telecommunications equipment at issue
do not fall within the definition of readily achievable and therefore are not
required." Motorola said that DOJ reached the conclusion that "fundamental
alteration" is a component of "readily achievable" by drawing a comparison to
the "undue burden" standard, which defines the scope of a public
accommodation's duty to provide auxiliary aids and services. The undue burden
and readily achievable determinations depend upon the same factors. The undue
burden standard, however, requires a higher level of effort to achieve
compliance than the readily achievable limitation does. Since the undue
burden standard excuses actions that would fundamentally modify goods and
services, Motorola concludes that the readily achievable limitation would
excuse such actions as well, even though this is not specifically stated in
the regulations. Compactness and portability, Motorola continues, are
fundamental characteristics of wireless customer premises equipment and that
these attributes are responsible for their popularity. Incorporating
accessibility features could, in some cases, result in a significant increase
in the size of the customer premises equipment, thus fundamentally altering
the nature of the product at issue.
Response. The appendix includes factors derived from the ADA and the DOJ
regulations. Several commenters suggested adding additional factors. The
Board was not persuaded that the additional factors suggested, such as mass
market appeal or "user-friendliness," were consistent with those from the ADA
or the DOJ regulations. However, the Board does acknowledge that readily
achievable is intended to be a lower standard than "undue burden" and that
the latter includes the concept of fundamental alteration. Therefore,
consistent with the DOJ interpretation, fundamental alteration is listed as a
factor in the appendix.
Comment. Some commenters said that since what is readily achievable will
change over time, disability access requirements should be gradually phased-
in.
Response. Since the determination whether an action is readily achievable
will automatically change over time, with new technology or new
understanding, no explicit phase-in is needed. Obviously, knowing about an
accessibility solution, even in detail, does not mean it is readily
achievable for a specific manufacturer to implement it immediately. Even if
it only requires substituting a different, compatible part, the new part must
be ordered and integrated into the manufacturing process. A more extreme
implementation might require re-tooling or redesign. On the other hand, a
given solution might be so similar to the current design, development and
fabrication process that it is readily achievable to implement it quickly. To
incorporate a specific phase-in period would delay implementation of such a
readily achievable solution. Each manufacturer would make its own
determination as to what is now readily achievable and proceed according to
its own schedule.
Comment. The NPRM asked (Question 2 (e)) whether resources other than
monetary should be considered in determining whether an action is readily
achievable. Motorola said that "the relative technological expertise of
telecommunications manufacturers should not be a factor defining what is
readily achievable." Motorola was concerned that measuring technological
expertise would be too subjective and that criteria for measuring expertise
may not be fairly and consistently applied. On the other hand, TIA said that
resources other than monetary should be considered in determining whether an
action is readily achievable. TIA suggested that the process of technological
innovation is only feasible when the appropriate resources in the appropriate
quantities are applied at the appropriate time.
Response. Some commenters seemed to think that the inclusion of technical
expertise was to be used in place of financial resources or as a reason for
requiring one company to do more than another. This was not the intent but,
rather the reverse. That is, a company might have ample financial resources
and, at first glance, appear to have no defense for not having included a
particular accessibility feature in a given product. However, it might be
that the company lacks personnel with experience in software development, for
example, needed to implement the design solution. One might reason that, if
the financial resources are available, the company should hire the
appropriate personnel, but, if it does, it may no longer have the financial
resources to implement the design solution. One would expect that the company
would develop the technical expertise over time and that eventually the
access solution might become readily achievable. The Board has never proposed
to make any determinations of whether any activity was readily achievable,
only to set forth a series of factors that a manufacturer would consider in
making its own determination.
Comment. Motorola felt that it would be inappropriate for a government
entity to "certify" the competence of any manufacturer or its personnel.
Response. There was never any suggestion that any government entity would
"certify" any personnel or that any determination would be made by anyone but
the manufacturer itself. The question was designed to raise the issue that
whether something was readily achievable could be related to more than
monetary resources.
Comment. Some commenters said that proprietary accessibility features will
frequently have additional costs associated with licensing fees. If rights to
use those technologies can be obtained, which is not at all certain, the
right to use proprietary technology to provide accessibility will be
expensive. In some cases, such proprietary access technologies would not be
available for a reasonable price and therefore could not be required.
Response. This cost would be included as part of an assessment of what is
readily achievable.
Comment. One commenter stated that a manufacturer could hesitate before
introducing a potentially valuable technical innovation if doing so would
cause section 255 compliance costs to immediately skyrocket.
Response. Compliance costs would not "skyrocket" since cost is explicit in
determining what is readily achievable. If the cost goes over what the
manufacturer considers to be readily achievable, the compliance cost drops to
zero because the new product is no longer required to be accessible or
compatible.
Comment. The NPRM asked (Question 2 (b)) whether large and small
manufacturers would be treated differently under the readily achievable
limitation and whether this would confer a market advantage on small
companies (Question 2 (c)) because they would have fewer resources and,
therefore, be expected to do less. Comments uniformly supported the idea that
the readily achievable criteria should be applied equally. Several comments
pointed out that any advantage a small manufacturer derived would be
temporary. A company with few resources, they argued, might be able to claim
that providing accessibility was not readily achievable and could manufacture
cheaper products. However, any competitive advantage it gained would result
in higher sales, increasing its resources, until it could no longer claim
access was not readily achievable.
Response. The NPRM question was confusing and apparently gave the
impression that the Board was considering developing different criteria for
large and small companies. The Board did not intend to suggest that different
criteria would be applied to different sized manufacturers.
Comment. The NPRM asked (Question 2 (d)) whether "technological
feasibility" should be an explicit factor in determining whether an action is
readily achievable. Most comments agreed this is an important factor and said
it needed to be included. However, some comments pointed out that if an
action were not technologically feasible, it would not be accomplishable at
all, let alone "easily accomplishable, without much difficulty or expense."
NAD said that, where a manufacturer alleges that providing accessibility for
a particular telecommunications product will not be technologically feasible,
the manufacturer should be required to demonstrate that it has engaged in
comprehensive efforts to overcome the technological problems at hand.
Response. The Board agrees that technological feasibility is inherent in
the determination of what is readily achievable and does not need to be
explicitly stated. The issue of what a manufacturer must demonstrate is a
matter for the FCC to decide in an enforcement proceeding.
Specialized Customer Premises Equipment. Section 255(d) of the
Telecommunications Act requires that whenever it is not readily achievable to
make a product accessible, a manufacturer shall ensure that the equipment is
compatible with existing peripheral devices or specialized customer premises
equipment commonly used by individuals with disabilities to achieve access,
if readily achievable. The Telecommunications Act does not define specialized
customer premises equipment. As discussed above, the Act defines customer
premises equipment as "equipment employed on the premises of a person (other
than a carrier) to originate, route, or terminate telecommunications'.
The Board noted in the NPRM that the Act and its legislative history do not
make clear whether Congress intended to treat specialized customer premises
equipment differently from peripheral devices. The NPRM also pointed out that
certain specialized equipment, such as direct-connect TTYs, can originate,
route, or terminate telecommunications without connection to other equipment.
The NPRM concluded that if specialized customer premises equipment can
originate, route, or terminate telecommunications, it appears that the
equipment should be treated the same as customer premises equipment and asked
(Question 3) if this should be the case.
Comment. The overwhelming majority of comments including those from the
telecommunications industry and disability organizations responded that if
specialized customer premises equipment can originate, route, or terminate
telecommunications, the equipment should be treated the same as customer
premises equipment. The Trace Center commented that TTYs are made primarily
for individuals who are deaf and requiring that TTYs provide voice output for
all of the information displayed on the screen seems counter productive. One
commenter suggested that the term "limited customer premises equipment"
replace the term specialized customer premises equipment because it would
more accurately describe a device that serves a certain population. Ultratec,
a manufacturer of TTYs, commented that the majority of the output criteria,
and all of the compatibility criteria, are not applicable to TTYs. Therefore,
TTYs should not be considered customer premises equipment.
Response. The statute, not the guidelines, defines customer premises
equipment. If specialized customer premises equipment can originate, route,
or terminate telecommunications, it is customer premises equipment according
to the statutory definition. Therefore, the term "specialized customer
premises equipment" is defined in the final rule as "equipment employed on
the premises of a person (other than a carrier) to originate, route, or
terminate telecommunications, which is commonly used by individuals with
disabilities to achieve access." If specialized customer premises equipment
manufacturers are not required to follow the guidelines where readily
achievable, then individuals with multiple disabilities, or individuals with
disabilities other than deafness who want to communicate with individuals who
are deaf may find it difficult or impossible to find specialized customer
premises equipment that they can use. For example, even though it may seem
"counter-productive," a person who is blind may need to communicate with a
TTY user directly, without going through a relay service, and would need
auditory output. Whether it is readily achievable to provide auditory output
is for the manufacturer to decide. The fact that individuals with multiple
disabilities are not the primary market for the specialized customer premises
equipment is not persuasive, since this is equally true of all mass market
manufacturers.
The provisions for accessibility and compatibility are required only when
the feature or function is provided. For example, the requirement to provide
a visual output applies only where an auditory output is provided. Thus, if a
product provides no auditory output for its operation, a corresponding visual
output is not required. Therefore, a TTY should be able to meet the
provisions for output and compatibility the same as any other
telecommunications equipment or customer premises equipment. A particular
manufacturer must make the determination of what is readily achievable on a
case-by-case basis.
On balance, the Board concludes that specialized customer premises
equipment should be considered a subset of customer premises equipment, and
that manufacturers of specialized customer premises equipment should make
their products accessible to all individuals with disabilities, including the
disability represented by their target market, where readily achievable.
Comment. Ultratec pointed out that, currently, TTYs with direct connect
capabilities are analog only units and that consumers cannot use the full
capabilities of direct connect TTYs (i.e. auto answer capabilities), unless
they install a separate analog port within their digital PBX system. This,
Ultratec adds, is a compatibility issue and as a specialized customer
premises equipment manufacturer cannot do anything to bring about access at
this time in a digital environment.
Response. The Board understands that some manufacturers are working to
solve the non-compatibility between analog and digital signals, but that a
solution may not be readily achievable at this time. A note has been added to
the appendix regarding strategies that can be used to improve the
compatibility between TTYs and the telecommunications network in the interim
until industry standards are in place.
Telecommunications. This is the same definition from the Telecommunications
Act.
No substantive comments were received regarding this definition and no
changes have been made in the final rule.
Telecommunications Equipment. This is the same definition from the
Telecommunications Act.
No substantive comments were received regarding this definition and no
changes have been made in the final rule.
Telecommunications Service. This is the same definition from the
Telecommunications Act.
No substantive comments were received regarding this definition and no
changes have been made in the final rule.
TTY. This definition is taken from the ADA Accessibility Guidelines,
primarily for consistency with the Board's other guidelines.
No substantive comments were received regarding this definition and no
changes have been made in the final rule.
Usable. This definition is included to convey the important point that
products which have been designed to be accessible are usable only if an
individual has adequate information on how to operate the product. Further
discussion of usability is provided in Sec. 1193.33.
Comment. Ericsson points out that neither the Act, nor its legislative
history defines "usable" as meaning access to instructions, product
information and documentation relative to products. Ericsson suggests that
the term "usable" be stricken from the definitions section. The Trace Center
recommended some minor editorial changes to the definition as proposed.
Response. The term "usable" in the Act does not stand alone, but, rather is
part of a term of art, "accessible to and usable by" persons with
disabilities, which is a standard phrase in disability law and regulation.
The term generally means more than "convenient and practicable for use" as
Ericsson suggested in its comments. Typically, "accessible" means an element
complies with a specific technical specification whereas "usable" means a
person with a disability can use the element effectively. Something can be
accessible but not usable: a door can be built to correct specifications,
with proper maneuvering space, but space can be blocked by furniture or
otherwise be made unusable. Conversely, something can be usable but not
accessible: a door which does not meet maneuvering space requirements (i.e.,
is not accessible) can be made usable by adding a power operator.
Telecommunications equipment or customer premises equipment is made usable
to a purchaser by having instructions; except for the simplest device, it
would not be usable by anyone without instructions. If instructions are not
provided for any user, instructions in alternate formats would not be
required. Accessible features can be provided, but without instructions, the
product could not be used.
Where information or documentation is provided for a product, the
information or documentation must be provided in an accessible format that is
usable by a person with a disability. Clearly, to be usable by persons with
disabilities instructions must be in a form they can use: print information
is not very helpful to a person who is blind and auditory information is
useless to a person who is deaf. A slight editorial change has been made in
response to the comment from the Trace Center.
Subpart B--General Requirements
Section 1193.21 Accessibility, Usability and Compatibility
This section provides that where readily achievable, telecommunications
equipment and customer premises equipment shall comply with the specific
technical provisions of Subpart C. Where it is not readily achievable to
comply with Subpart C, telecommunications equipment and customer premises
equipment shall comply with the provisions of Subpart D, if readily
achievable. This is a restatement of the Act and sets forth the readily
achievable limitation which applies to all subsequent sections of these
guidelines.
Comment. Several comments pointed out that the NPRM applied the readily
achievable limitation only to the provisions of Subparts C and D but not to
the other provisions in the rule. They correctly noted that the statutory
requirements for usability are also subject to the readily achievable
limitation. As proposed, the obligations to provide usable documentation
seemed to be absolute. Additionally, the Trace Center pointed out that the
NPRM was unclear whether the requirements of Subpart D (Requirements for
Compatibility With Peripheral Devices and Specialized Customer Premises
Equipment) must be met if a product fully complies with the requirements in
Subpart C (Requirements for Accessibility and Usability).
Response. The Board agrees that the statute applies the readily achievable
limitation to usability as well as accessibility and compatibility.
Therefore, the title of this section has been changed and the proposed Secs.
1193.25, 1193.27 and 1193.29 have been moved to Subpart C and renumbered
accordingly. Section 255 does not require telecommunications equipment and
customer premises equipment to be both accessible and compatible. Therefore,
telecommunications equipment and customer premises equipment are not required
to be compatible with peripheral devices or specialized customer premises
equipment if they comply with the requirements in subpart C.
Section 1193.23 Product Design, Development and Evaluation
This section requires manufacturers to evaluate the accessibility,
usability, and compatibility of telecommunications equipment and customer
premises equipment and incorporate such evaluation throughout product design,
development, and fabrication, as early and consistently as possible.
Manufacturers must develop a process to ensure that products are designed,
developed and fabricated to be accessible whenever it is readily achievable.
Since what is readily achievable will vary according to the stage of
development (i.e., some things will be readily achievable in the design phase
which are not in later phases), barriers to accessibility, usability, and
compatibility must be identified throughout product design and development,
from conceptualization to production. Moreover, usability can be seriously
affected even after production, if information is not provided in an
effective manner.
The details of such a process will vary from one company to the next, so
this section does not specify the structure or specific content of a process.
Instead, this section sets forth a series of factors that a manufacturer must
consider in developing such a process. How, and to what extent, each of the
factors is incorporated in a specific process is up to the manufacturer.
Comment. The majority of comments supported the provision as proposed but
manufacturers generally objected to intrusions into their proprietary or
discretionary activities. They also viewed this provision as creating
paperwork burdens and criticized the Board for not using the TAAC
recommendation which used the word "should" rather than mandatory language
for this section.
Response. The provision, as proposed, consisted of a set of factors which
the Board considers critical to the development of any plan which seeks to
ensure that products will be designed, developed and fabricated to be
accessible. As such, they are more than suggestions. On the other hand, the
Board is fully aware that different manufacturers, or even the same
manufacturer at different times, must be given the flexibility to tailor any
such plan to its own particular needs. Therefore, while this section sets
forth the factors which must be considered in approaching how accessibility
will be provided, it does not prescribe any particular plan or content. It
does not require that such a process be submitted to any entity or that it
even be in writing. The requirement is outcome-oriented, and a process could
range from purely conceptual to formally documented, as suits the
manufacturer. With respect to the "mandatory" nature of the provision, as
explained elsewhere, the Board does not construe its statutory mandate as
merely providing hortatory technical assistance. However, the Board did not
ignore the TAAC recommendation, it merely approached it from a different
direction.
Comment. Commenters almost uniformly misconstrued the provision as
requiring extensive activities and documentation, which it does not. One
manufacturer interpreted the section as requiring a "checklist" which would
need to be completed for each product.
Response. While there is nothing to prevent a manufacturer from using
extensive activities and documentation, this approach is neither required nor
suggested. A "checklist" seems to envision an after-the-fact evaluation
activity which is certainly not the best way to achieve access. It also seems
to assume that such evaluation is to be applied to existing products. As
explained in section 1193.2, these guidelines apply to products designed,
developed and fabricated after the effective date of this rule. Of course, in
the beginning, before designers and developers are knowledgeable and familiar
with access, some checklist procedure may be useful. Ultimately, however, the
goal is for designers to be aware of access and incorporate such
considerations in the conceptualization of new products. When an idea is just
beginning to take shape, a designer would ask, "How would a blind person use
this product? How would a deaf person use it?" The sooner a manufacturer
makes its design team cognizant of design issues for achieving accessibility
and proven solutions for accessibility and compatibility, the easier this
process will be. But, again, how this is done is up to the manufacturer.
Comment. Manufacturers also believed the provision required extensive
marketing and testing programs, well beyond what they might currently
provide.
Response. The guidelines do not require market research, testing or
consultation, only that they be considered and incorporated to the extent
deemed appropriate for a given manufacturer. If a manufacturer has a large
marketing effort, involving surveys and focus groups, it may be appropriate
to include persons with disabilities in such groups. On the other hand, some
small companies do not do any real marketing, per se, but may just notice
that a product made by XYZ Corporation is selling well and, based on this
"marketing survey" it decides it can make a cheaper one. Clearly,
"involvement" of persons with disabilities is not appropriate in this case.
The final provision, therefore, has been revised to make it clear that these
activities are not expected to be created where none existed before.
Comment. TIA noted that the NPRM discussion assumes the impact will be low
because manufacturers are only required to achieve what can be accomplished
easily, without much difficulty or expense. "This appears," says TIA, "to
omit consideration of the costs of making readily achievable determinations
in the first place, prior to any expenditures on design, development and
fabrication."
Response. As stated above, in the beginning manufacturers may spend some
time evaluating products and the difficulty and expense of doing so may
contribute to a finding that accessibility is not readily achievable. These
costs have not been omitted, they are explicitly included in deciding whether
an action is readily achievable, a determination which is to be made by the
manufacturer not the Board. Moreover, as designers become more familiar with
access and as technological solutions are found, the process should become
more and more automatic. The Board has a positive regard for manufacturers of
telecommunications equipment and customer premises equipment as enterprising
innovators who desire to provide access because they view it as the right
thing to do, and because it is good business, not just because there is a
Federal requirement. Indeed, recent announcements by telecommunications
companies suggests this is true.4
Note 4 "Bell Atlantic, NYNEX Announce Plans To Make Services, Products More
Accessible," press release, February 3, 1997.
Comment. SBC Communications commented that the complex interrelationship
between equipment and services in providing accessibility to
telecommunications suggests that coordination and cooperation between
manufacturers and service providers will be beneficial. SBC agreed that
involving individuals with disabilities in the product development process
will encourage appropriate design solutions to accessibility barriers and
permit the exchange of relevant information. It believed that the same
benefits would flow from interchanges with service providers.
Response. The Board agrees that it would be desirable for manufacturers to
consult with service providers during the design phase. As SBC points out,
the solution to a particular barrier might be better addressed by the service
or might involve a combination of service and equipment designs. Accordingly,
the recommendation has been added to the appendix to include service
providers in any consultation process.
Comment. The American Council of the Blind (ACB) strongly supported the
provision that manufacturers include individuals with disabilities in market
research, product design, and testing. ACB felt that including individuals
with disabilities is important but that manufacturers should consult with
representatives from a cross-section of disability groups, particularly
individuals whose disabilities affect hearing, vision, movement,
manipulation, speech, and interpretation of information. ACB believed that it
was important to remind manufacturers that they should work with a broad
cross-section of disability groups and not just some.
Response. The Board agrees that a cross-section of disability groups should
be included in an evaluation of the accessibility and usability of
telecommunications equipment and customer premises equipment. However, since
the provision is meant to be general, no change has been made in the final
rule.
Subpart C--Requirements for Accessibility and Usability
Section 1193.31 Accessibility and Usability
This section provides that, subject to section 1193.21, manufacturers must
design, develop and fabricate their products to meet the specific
requirements of sections 1193.33 through 1193.43. As discussed under section
1193.21, some sections related to usability have been moved to this subpart
to reflect that they are subject to the readily achievable limitation. The
title has been changed and the sections renumbered accordingly.
Comment. Several manufacturers suggested replacing "shall" with "should"
throughout and placing all the requirements in an appendix, not in the
guidelines.
Response. As discussed previously, the guidelines are not merely advisory
technical assistance.
Section 1193.33 Information, Documentation and Training [1193.25 in the
NPRM]
Paragraph (a) of this section requires that manufacturers provide access to
information and documentation. This information and documentation includes
user guides, installation guides, and product support communications,
regarding both the product in general and the accessibility features of the
product. Information and documentation are what make a product usable by
anyone and, if such information is provided to the public at no charge, it
must be provided to people with disabilities at no additional charge.
Alternate formats or alternate modes of this information are also required to
be available, upon request. Manufacturers are also required to ensure usable
customer support and technical support in the call centers and service
centers, which support their products.
Comment. The American Council of the Blind (ACB) commented that the
provision as proposed was unclear if alternate formats must be available at
no additional charge. They also added that the alternate format provided
should be of the customer's choosing, that alternate formats are not
interchangeable, and that a manufacturer cannot determine which format is
appropriate for any particular customer.
Response. The Board agrees that the provision may have been unclear in the
NPRM. The final rule has been revised to clarify that additional charges may
not be required for the description of accessibility and compatibility
features of the product, end-user product documentation, and usable customer
support and technical support. There is nothing prohibiting a manufacturer
from charging everyone for these services. However, people with disabilities
may not be charged an additional fee above the fee charged to everyone.
The specific alternate format or mode to be provided is that which is
usable by the customer. Obviously, it does no good to provide documentation
in Braille to someone who does not read it. While the user's preference is
first priority, manufacturers are not expected to stock copies of all
materials in all possible alternate formats and may negotiate with users to
supply information in other formats. For example, Braille is extremely bulky
and can only be read by a minority of individuals who are blind. Audio
cassettes are usable by more people but are difficult for users to find a
specific section or to skip from one section to the next. Documentation
provided on disk in ASCII format can often be accessed by computers with
appropriate software, but is worthless if the information sought is how to
set up the computer in the first place. Of course, if instructions are
provided by videotape, appropriate video description would be needed for
persons who are blind and captions would be needed for persons who are deaf
or hard of hearing.
Comment. Some commenters said customer support lines should be made
accessible to people with hearing loss. Specifically, they pointed out that
automated voice response systems go too fast, are not clear and do not allow
for repeats making them inaccessible for most people with hearing loss. They
recommended that menus should be set up to allow someone to escape early on
by dialing a standard number such as "0" to talk to a person.
Response. Providing a quick means to "opt out" of a voice mail menu system
is a useful feature to make such systems more usable by people who are hard
of hearing. In addition, ensuring usable customer support may mean providing
a TTY number, since the current automated voice response systems cannot be
used by individuals who are deaf either. Such systems cannot be accessed by
TTY relay services since there is generally insufficient time for the
operator to type the choices and the deaf caller must wait until the end
before responding. Also, if such menu systems require quick responses, they
may not be usable by persons with other disabilities. An appendix note has
been added recommending that automated voice response systems should be set
up to allow someone to escape early on. The appendix also provides guidance
on how to provide information in alternate formats and modes.
Paragraph (b) requires manufacturers to include in general product
information the name and contact means for obtaining the information required
by paragraph (a).
Comment. The NPRM specified a telephone number but some commenters pointed
out that e-mail and Internet methods might be equally valid methods of
contacting a manufacturer for information.
Response. More and more companies have access to e-mail but all companies
do not. The final rule has generalized this requirement to allow for
different ways other than just a telephone number to contact a manufacturer.
However, a phone number is the preferred method of contact since many more
people have telephones than have access to e-mail or the Internet. Additional
ways of contacting a manufacturer are encouraged but are not required. The
name of the contact point can be an office of the manufacturer rather than an
individual.
Paragraph (c) requires manufacturers to provide employee training
appropriate to an employee's function. In developing, or incorporating
information into existing training programs, consideration must be given to
the following factors: accessibility requirements of individuals with
disabilities; means of communicating with individuals with disabilities;
commonly used adaptive technology used with the manufacturer's products;
designing for accessibility; and solutions for accessibility and
compatibility.
Comment. Several manufacturers claimed the guidelines contemplate costly
training of manufacturers' employees. Several comments pointed out that the
NPRM applied the readily achievable limitation only to the provisions of
subparts C and D but not to the other requirements of this rule.
Response. The key to usability is information and the manufacturer's
employees must know how to provide it in an effective manner. This is
especially true for good technical support, if persons with disabilities are
to receive adequate information on how to use the new accessibility features
of telecommunications equipment and customer premises equipment. The
guidelines, however, do not require a specific training program, only that
certain factors be considered and incorporated to the extent deemed
appropriate by a given manufacturer.
Obviously, not every employee needs training in all factors. Designers and
developers need to know about barriers and solutions. Technical support and
sales personnel need to know how to communicate with individuals with
disabilities and what common peripheral devices may be compatible with the
manufacturer's products. Other employees may need a combination of this
training. No specific program is required and the manufacturer is free to
address the needs in whatever way it sees fit, as long as effective
information is provided.
The Board agrees that the statute applies the readily achievable limitation
to usability as well as accessibility and compatibility. As noted in the
discussion in section 1193.21 above, the title of this section has been
changed and the proposed section has been moved to Subpart C and renumbered
accordingly.
Section 1193.35 Redundancy and Selectability [1193.33 in the NPRM]
This section proposed that products incorporate multiple modes for input
and output functions and that the user be able to select the desired mode.
Comment. Manufacturers objected to this provision on the basis that it
added unnecessary and potentially unwanted functions to a product which could
affect its marketability and even result in a "fundamental alteration" of the
product. It would also, in their view, cause the product to be too
complicated.
Response. Although this provision was supported by persons with
disabilities, it may run contrary to section 1193.41 (i), which intends to
make products accessible to persons with limited cognitive skills. As a
result, the provision is being reserved at this time, with a recommendation
for redundancy and selectability placed in the appendix. The Board intends to
consider this provision further and highlight it for evaluation in its market
monitoring report. If the Board's market monitoring report shows that
redundancy and selectability can be provided without unnecessary complexity,
it will re-evaluate the "reserved" status of this provision.
Section 1193.37 Information Pass-through [1193.27 in the NPRM]
This section requires telecommunications equipment and customer premises
equipment to pass through codes, translation protocols, formats or other
information necessary to provide telecommunications in an accessible format.
Comment. Most manufacturers pointed out that the provision as proposed
could require manufacturers to anticipate any possible code or protocol
another party might devise and to pass it through. Moreover, some
technologies operate through "compression" of one sort or another and cannot
be turned on or off, as suggested by the NPRM preamble. In addition,
manufacturers objected to the one-sided nature of the requirement and wanted
manufacturers of peripheral devices and specialized customer premises
equipment to be held accountable, as well. Finally, CEMA objected to the
example of closed captioning cited in the NPRM as implying that televisions
were covered by the guidelines.
Response. The provision in the final rule has been modified by language
suggested by the Trace Center to specify that the information to be passed
through must be standardized and non-proprietary. Also, this provision is
subject to the readily achievable criteria so that the obligation is not
absolute.
The Board agrees that manufacturers of other types of equipment need to be
cognizant of the capabilities of telecommunications equipment and customer
premises equipment, as was strongly recommended by the TAAC. However, the
statute places the responsibility for compatibility on the telecommunications
equipment and customer premises equipment manufacturer and neither the
Telecommunications Act nor any other statute gives the Board authority to
regulate manufacturers of peripheral devices. Specialized customer premises
equipment, on the other hand, is regarded as a subset of customer premises
equipment and, therefore, subject to these guidelines.
Finally, the example of closed captions cited in the NPRM was merely to
illustrate the principle of information pass-through. Closed captioning is
covered by other rules and regulations issued by the FCC and is not a subject
of this proceeding.
Section 1193.39 Prohibited Reduction of Accessibility, Usability and
Compatibility [1193.29 in the NPRM]
This section provides that no change shall be undertaken which decreases or
has the effect of decreasing the net accessibility, usability, and
compatibility of telecommunications equipment or customer premises equipment.
Comment. This provision was uniformly supported by disability groups, many
of whom cited examples of an accessible feature or design which was later
defeated by an alteration. Manufacturers, on the other hand, uniformly
objected to it. Several pointed out that it was not a part of the TAAC
recommendations and that it unnecessarily restricted design and innovation.
For example, it seemed to prevent a manufacturer from even discontinuing an
obsolete product if it had an accessibility feature unless the same feature
were incorporated in its replacement. This was unreasonable, they claimed,
because a newer technology might be better and more efficient but it might
not be readily achievable to incorporate the same accessibility feature.
Products are discontinued from time to time because they do not sell, but
this provision as proposed may have required any product with an
accessibility feature to be continued in perpetuity.
Response. Providing that no change shall be undertaken which decreases or
has the effect of decreasing accessibility is a common principle in
disability access codes and standards and was borrowed from both the ADA
Accessibility Guidelines (ADAAG) and the Uniform Federal Accessibility
Standards (UFAS). Both of these prohibit alterations which reduce or have the
effect of reducing accessibility below the requirements for new construction.
Those provisions were intended to apply to alterations to buildings and
facilities which have a relatively static base. However, where technology is
constantly changing, the principle in this rule, which is analogous to the
alterations provisions of ADAAG and UFAS, may need adjusting. TIA suggested
adding language that would refer to the "net" accessibility, usability and
compatibility of products. As previously discussed, the statute does not
require that a new product be both accessible and compatible, and establishes
accessibility as the first priority. Since an alteration never establishes a
requirement which is greater than for new construction, the same concept
holds true for section 1193.39. For example, it might not be readily
achievable to provide accessibility in the first iteration of a particular
product, but compatibility is readily achievable. However, in an upgrade,
technology or other factors may have changed so that accessibility is now
readily achievable. Since the statute does not require a new product to be
both accessible and compatible, a change which increased accessibility but
decreased compatibility would not be prohibited. The provision has been
modified accordingly.
The Board agrees that it would be unreasonable to require obsolete or
unmarketable products to be maintained beyond their useful life. Since any
new product introduced to replace another would be subject to the statutory
requirement to provide accessibility or compatibility if readily achievable,
a specific exception has been added to allow for product discontinuation. The
Board does not believe this change will significantly affect the availability
of accessible products. The Board intends to highlight this item for
attention in its market monitoring report to determine if this provision
needs to be modified in the future.
Section 1193.41 Input, Control, and Mechanical Functions [1193.35 in the
NPRM]
This section requires product input, control and mechanical functions to be
locatable, identifiable, and operable through at least one mode which meets
each of the following paragraphs. This means, each of the product's input,
control and mechanical functions must be evaluated against each of paragraphs
(a) through (i) to ensure that there is at least one mode that meets each of
those requirements. Of course, there may be one mode which meets more than
one of the specific provisions. This section does not specify how the
requirement is to be met but only specifies the outcome. The appendix to this
rule contains a set of strategies which may help in developing solutions. In
some cases, a particular strategy may be directly applicable while a
different strategy may be a useful starting point for further exploration.
Comment. A few commenters said that it was not clear whether a single mode
was to meet all of the paragraphs in this section or whether one mode was to
meet paragraph (a), one mode was to meet paragraph (b), and so forth.
Response. In an effort to reduce the redundant language in the TAAC report,
confusion may have been created in the NPRM. Therefore, the phrase "at least
one mode" has been removed from the overall charging statement and instead
repeated in the individual paragraphs. Some additional language has also been
provided to clarify that each of the paragraphs (a) through (i) are to be
satisfied independently. That is, it may be readily achievable to satisfy
(a), (c), and (g), for example, but none of the others. Again, one mode may
be able to satisfy more than one paragraph.
Paragraph (a) Operable without vision. No substantive comments were
received on this paragraph and no changes were made, other than the editorial
changes mentioned in the opening paragraph of this section.
Paragraph (b) Operable with low vision and limited or no hearing. Comment.
The Trace Center suggested that both the upper and lower limits for low
vision be included and that the paragraph title be amended to include the
restriction on audio output.
Response. The provision has been modified accordingly.
Paragraph (c) Operable with little or no color perception. No substantive
comments were received on this paragraph and no changes were made, other than
the editorial changes mentioned in the opening paragraph of this section.
Paragraph (d) Operable without hearing. No substantive comments were
received on this paragraph and no changes were made, other than the editorial
changes mentioned in the opening paragraph of this section.
Paragraph (e) Operable with limited manual dexterity. No substantive
comments were received on this paragraph and no changes were made, other than
the editorial changes mentioned in the opening paragraph of this section.
Paragraph (f) Operable with limited reach and strength. Comment. In the
NPRM the Board had asked (Question 6) whether the ADAAG provisions for
controls and operating mechanisms and reach ranges should be included here.
The few comments on this issue felt those provisions might be too specific
for these guidelines.
Response. The ADAAG provisions have not been added to these paragraphs but
have been included in the appendix for reference, with the notation that some
customer premises equipment might be covered by the ADA and required to
comply with ADAAG.
Paragraph (g) Operable without time-dependent controls. Comment. The NPRM
had proposed a three-second time limit. A few comments suggested a single
number was not appropriate for different actions and that more research is
needed before applying a specific time limit.
Response. The specific time limit has been removed and the more general
performance language from the TAAC report substituted. Some of the discussion
on this subject provided by the Trace Center has been included in the
appendix.
Paragraph (h) Operable without speech. No substantive comments were
received on this paragraph and no changes were made, other than the editorial
changes mentioned in the opening paragraph of this section.
Paragraph (i) Operable with limited cognitive skills. No substantive
comments were received on this paragraph and no changes were made, other than
the editorial changes mentioned in the opening paragraph of this section.
Section 1193.43 Output, Display, and Control Functions [1193.37 in the NPRM]
Section 1193.43 applies to output, display, and control functions which are
necessary to operate products. This includes lights and other visual displays
and prompts, control labels, alphanumeric characters and text, static and
dynamic images, icons, screen dialog boxes, and tones and beeps which provide
operating cues or control status. Since functions requiring voice
communication are more specific than the general output functions covered by
this section, the Board sought comment (Question 10) on whether moving the
requirements of paragraphs (b)(9) and (b)(10) to a different section would be
less confusing to designers and manufacturers.
Comment. The Trace Center pointed out that control labels had been omitted,
as well as sounds, from the list of examples. Also, Trace noted that it
appeared that voice communication did not need to comply with any of the
paragraphs in the NPRM except (9) and (10) and questioned whether voice
communication should be treated separately. Trace speculated that this may
have been done to avoid any requirement for speech-to-text translation. While
this may currently not be readily achievable, recent technological advances
are approaching practical translation and Trace saw no reason why such
translation should not be required when it becomes readily achievable.
Response. The phrase "incidental operating cues" was intended to include
sounds but "sounds" has been added, along with "labels," and the phrase "but
not limited to" to clarify that the list of examples is not exhaustive. In
the NPRM, this section was divided into subsections (a) and (b) because the
requirements for voice communication did not seem to fit with the rest of the
section. Since this organization caused some confusion, the NPRM division
into subsections (a) and (b) has been eliminated. Former paragraph (b)(10)
has been incorporated into paragraph (e), and the paragraphs renumbered
accordingly. Also, as with section 1193.41, the phrase "at least one mode"
has been removed from the general paragraph and repeated in subsequent
paragraphs to clarify that each of the paragraphs (a) through (i) are to be
satisfied independently. That is, it may be readily achievable to meet the
requirements of (b), (d), and (g), for example, but none of the others.
Again, one mode may be able to satisfy more than one paragraph.
Paragraph (a) Availability of visual information. No substantive comments
were received on this paragraph and no changes were made, other than the
editorial changes mentioned in the opening paragraph.
Paragraph (b) Availability of visual information for low vision users.
Comment. As discussed under section 1193.41 (b), a range has been included
for low vision.
Paragraph (c) Access to moving text. Comment. The NPRM provision exempted
TTYs from this provision because it assumed a person who needed static text
could ask the TTY sender to pause or type slowly. The Trace Center pointed
out that there are many automatic TTY messages for which this option is not
possible. Also, the message recipient could not communicate the request to
the sender until the sender had completed typing and transmitted "GA." Trace
further noted that many TTYs have a means to save text or are equipped with a
printer.
Response. The Board agrees that automatic messages could be a problem and
that one may not be able to communicate with the sender until the message has
gone by. In addition, this provision applies to telecommunications equipment
and customer premises equipment, not peripheral devices. Since the majority
of TTYs to which this provision would apply would usually have a printer or a
feature to save the message to memory for playback line by line, the Board
has removed the exception.
Paragraph (d) Availability of auditory information. Comment. TTY to TTY
long distance and message unit calls from pay telephones are often not
possible because an operator says how much money must be deposited.
Technology exists to have this information displayed on the telephone and an
installation is currently operating at the Butler plaza on the Pennsylvania
Turnpike.
Response. This is a good example and has been placed in the appendix. No
changes have been made to this provision, other than the editorial changes
mentioned in the opening paragraph.
Paragraph (e) Availability of auditory information for people who are hard
of hearing. Comment. The majority of comments from persons who are hard of
hearing reported having trouble using public pay telephones because of
inadequate receiver amplification levels. These commenters supported the
proposed provision that products be equipped with volume control that
provides an adjustable amplification ranging from 18-25 dB of gain. However,
TIA and several manufacturers cited the National Technology Transfer and
Advancement Act of 1996, which requires the Federal government to make use of
technical specifications and practices established by private, voluntary
standards-setting bodies wherever possible. Furthermore, TIA claimed that the
higher range will result in signals encroaching on the acoustic shock limits
of telephone receiver output. TIA recommended that this section be revised to
reflect a general performance standard, similar to the recommendation in the
TAAC report. Some comments pointed out that there was no baseline signal
against which the gain is to be measured. That is, for a weak signal even 18-
25 dB of gain may be ineffective, while for a strong signal, the present
ADAAG and FCC requirement of 12-18 dB may be sufficient. Also, industry
commenters said that increasing gain may not be the only, or even the best
way to provide better access since amplifying a noisy signal also amplifies
the noise.
Response. Information submitted by SHHH indicates that the proposed gain of
25 dB is not a problem for current telephone technology. The information was
based on testing conducted by two independent laboratories (Harry Teder
Ph.D., Consulting in Hearing Technology and Harry Levitt, Ph.D., Director,
Rehabilitation Engineering and Research Center on Hearing Enhancement and
Assistive Devices, Lexington Center). High gain phones without special
circuitry currently on the market were tested which put out 90 dB and 105 dB
at maximum volume setting. This is a 20 dB gain over the standard 85 dB. The
sound was clear with no distortion. SHHH said that this shows that a 90 dB
and 105 dB clean speech level is achieved with phones commercially available
with no worse distortion levels than on public phones at normal levels. With
special circuits and transducers, telephones could generate even higher
amplification levels, above 25 dB, without distortion.
The current FCC standard for 12-18 dB of gain was adopted from ADAAG which
requires certain public pay telephones to provide a gain of 12-18 dB.
However, this provision is frequently incorrectly applied so that the gain
only falls somewhere within this range but does not reach the 18 dB level. In
fact, the requirement is to provide gain for the entire range of 12-18 dB.
The Board is currently reviewing all of its ADAAG provisions and will be
issuing a NPRM in 1998 which will propose a new ADAAG. The changes to ADAAG
will be based on recommendations of the Board's ADAAG Review Advisory
Committee. That Committee recommended increasing the gain for public pay
telephones from 12-18 dB to 12-20 dB. Recently, the ANSI A117.1 Committee
released its 1997 "Accessible and Usable Buildings and Facilities" standard.
This voluntary standard-setting body issues accessibility standards used by
the nations model building codes. The ANSI standard requires certain public
pay telephones to provide 12 dB of gain minimum and up to 20 dB maximum and
that an automatic reset be provided. The 1997 ANSI A117.1 document and the
Board's new ADAAG are being harmonized to minimize differences between the
two documents.
Therefore, in accordance with the National Technology Transfer and
Advancement Act, the final rule has been changed to adopt the provision as
currently specified in the private, voluntary ANSI standard, with wording to
clarify its meaning. For example, the ANSI provision was written under the
assumption of an incremental, stepped volume control. If a volume adjustment
is provided that allows a user to set the level anywhere from 0 to the upper
requirement of 20 dB, there is no need to specify a lower limit. If a stepped
volume control is provided, one of the intermediate levels must provide 12 dB
of gain. Although the final rule does not provide the higher 25 dB level as
proposed in the NPRM, the Board intends to highlight this provision for
evaluation in its market monitoring report. If the Board's market monitoring
report shows that persons with hearing impairments continue to report having
trouble using telephones because the level of amplification is not high
enough, the Board will re-evaluate this provision.
Recently, the FCC issued an order 5 postponing until January 1, 2000, the
date by which all telephones covered by Part 68 must be equipped with a
volume control. This order was issued as a response to a request for
reconsideration asking that the requirement only be applied to new equipment.
That request was denied but the time for compliance was extended to take into
account its application to telephones already registered under Part 68.
Note 5 FCC 97-242, July 17, 1997.
The guidelines only apply to telecommunications equipment and customer
premises equipment designed, developed and fabricated after March 5, 1998.
Therefore, the guideline provision does not conflict with the FCC order. New
telephones will be covered by these guidelines and existing telephones will
have until January 1, 2000, to comply with the FCC Order.
Paragraph (f) Prevention of visually induced seizures. Comment. The NPRM
suggested that the flash rate for visual indicators be set at or below 3 Hz,
based on research for visual fire alarms, and asked (Question 8) whether this
value was appropriate. The Epilepsy Foundation of America suggested that the
value be reduced to a maximum 2 Hz, based on recent suggested changes to
ADAAG and the ANSI A117.1 accessibility standard. The Trace Center also
suggested the 2 Hz lower end but pointed out that some visual characteristics
of video screens, for example, could not achieve that level. Trace presented
data to indicate that a range of frequencies should be excluded between 2 Hz
and 70 Hz.
Response. The provision has been revised according to the suggestion from
Trace.
The NPRM also asked (Question 9) whether a similar provision should be
included for seizures induced by auditory stimuli.
Comment. Those comments which addressed this issue said that the data are
limited and that the responses seem to be very individual. At this time,
there appears to be no good information on whether there are frequencies
which should be avoided. The Massachusetts Assistive Technology Partnership
encouraged the Board to conduct research on this issue. Trace Center noted
that the provision for audio cutoff would help alleviate the problem by
allowing a person with such a disability to insert a plug and cut off any
external auditory cues. Since another provision of the guidelines would
require the information to be conveyed visually, the person should be able to
operate the product.
Response. The Board has not added a provision at this time but will seek
further information on seizures induced by auditory stimuli.
Paragraph (g) Availability of audio cutoff. Comment. Comments from persons
with hearing impairments supported this provision. However, some comments
from both people with disabilities and manufacturers misunderstood this
requirement. These comments thought the audio cutoff applied to the input
rather than the output of the product, such as the input through a telephone
handset.
Response. The provision has been reworded to clarify its application.
Paragraph (h) Non-interference with hearing technologies. Comment. Persons
with hearing impairments uniformly supported this provision. Manufacturers,
however, said it posed problems with respect to wireless telephones. They
pointed out that the provision as written specified zero interference
whereas, that was not physically possible. Interference could only be reduced
so far, they said, and both the telephone and the hearing aid played a role.
They urged the Board to defer any such requirement until the ANSI C63
Committee had finished its work. Some manufacturers also objected to the
requirement's coverage of bystanders as outside the Act's jurisdiction. Also,
the Trace Center viewed interference as a compatibility issue which should be
addressed in Subpart D where it is repeated.
Response. The Board agrees that interference levels are a complex issue and
cited the work of the ANSI C63 Committee in the NPRM. Interference is a
function of both the hearing aid and telephone, and the C63 Committee is
seeking to define "acceptable" levels of interference with respect to types
of hearing aids and classes of telephones. The standard would also prescribe
testing protocols. The Board does not believe, however, that it should defer
a requirement until the ANSI Committee has finished its work, but it does
expect the Committee's work to help clarify what is readily achievable.
Therefore, the provision has been modified slightly in the final rule to
emphasize that products are to produce the least interference possible. In
subsequent revisions to these guidelines the Board will propose standards for
RF emissions and will consider the results of the ANSI C63 Committee, if they
are available, in developing such standards.
For now, the reference to bystanders has been removed because a device
which has reduced the interference to a level which is acceptable to the user
is likely to have reduced it for a bystander as well. However, what is not
known at this time is the effect another nearby wireless telephone might have
on a person's ability to use a properly designed wireless telephone. That is,
a person with a hearing impairment may have purchased a telephone which
produces minimal interference with his or her hearing aid but finds that
telephone cannot be used when in the vicinity of another wireless telephone
user. The Board intends to specifically address this issue in the market
monitoring report to see whether the prohibition of bystander interference
should be reinstated.
Finally, this provision appears to be a compatibility issue, but it is
really an accessibility one. If a hearing aid user experiences unacceptable
levels of interference, the telephone is inaccessible to that person. The
provision correctly belongs in Subpart C because the statute does not require
telecommunications equipment and customer premises equipment to be both
accessible and compatible. That is, if the provisions of Subpart C are met,
the manufacturer does not need to consider the provisions of Subpart D.
Furthermore, since the provisions of Subpart C are applied first, if it is
not readily achievable for a manufacturer to meet this provision here, it
would not be readily achievable in Subpart D either. Therefore, the provision
has been removed from Subpart D.
Paragraph (i) Hearing aid coupling. No substantive comments were received
on this provision and no changes were made, other than the editorial
revisions discussed in the general section.
Subpart D--Requirements for Compatibility With Peripheral Devices and
Specialized Customer Premises Equipment
Section 1193.51 Compatibility [1193.41 in the NPRM]
Section 1193.51 requires that when it is not readily achievable to make a
product accessible, the product must be compatible with existing peripheral
devices or specialized customer premises equipment commonly used by
individuals with disabilities to achieve access, if readily achievable.
Comment. Several commenters expressed concern that the NPRM failed to
reflect adequately the shared responsibility of manufacturers of
telecommunications equipment and customer premises equipment with
manufacturers of peripheral devices. Nortel gave the example that
electromagnetic compatibility requires both the use of proper hearing aid
shielding and prevention of unwanted emissions from the customer premises
equipment. Siemens pointed out that it is unrealistic, and often impossible
to make equipment compatible with all potential forms of peripheral devices,
unless the manufacturer controls all aspects of the affected equipment. The
commenters recommended that the Board encourage peripheral device
manufacturers to adhere to compatibility standards where they exist, and to
develop corresponding standards for customer premises equipment and
peripheral devices where they are needed but do not yet exist.
Response. The statute places the responsibility for compatibility on the
telecommunications equipment and customer premises equipment manufacturer and
neither the Telecommunications Act nor any other statute gives the Board
authority to regulate manufacturers of peripheral devices. However,
specialized customer premises equipment is regarded as a subset of customer
premises equipment and, therefore, subject to these guidelines. As discussed
earlier, the Board agrees that manufacturers of peripheral devices and other
types of equipment need to be cognizant of the capabilities of
telecommunications equipment and customer premises equipment.
Comment. The Information Technology Industry Council recommended that the
compatibility requirements should recognize the differences between
traditional telephony products and information technology products. Unlike
traditional telephony customer premises equipment, information technology
products are invariably associated with software. It is typically software,
in conjunction with hardware, that enables compatibility between an
information technology appliance and peripheral devices. Thus, the guidelines
should acknowledge that when information technology hardware products are
compatible with software that enables accessibility options and satisfies the
compatibility requirements, the hardware is consistent with the compatibility
guidelines.
Response. As the Board noted in the NPRM, "evolving telecommunications
technologies often make it difficult to distinguish whether a product's
functions and interfaces are the result of the design of the product itself,
or are the result of a service provider's software or even an information
service format." These guidelines do not differentiate between hardware and
software implementations of a product's functions or features, nor is any
distinction made between functions and features built into the product and
those that may be provided from a remote server over the network.
Paragraph (a) of the proposed rule required that information needed for the
operation of a product (including output, alerts, icons, on-line help, and
documentation) be available in a standard electronic text format on a cross-
industry standard port. It also required that all input to and control of a
product shall allow for real time operation by electronic text input into a
cross-industry standard external port and in cross-industry standard format
which do not require manipulation of a connector by the user. The proposed
rule also provided that products shall have a cross-industry standard
connector which may require manipulation.
Comment. The Trace Center strongly endorsed the inclusion of this provision
in the final rule. In many cases, Trace said, a cross-industry standard
external port, such as an infrared link, will be the only mechanism that will
allow access to systems by individuals with multiple and more severe
disabilities. An infrared link can also provide a mechanism for providing
access to the smaller, more advanced telecommunication devices and provide a
safety net for products which are unable to incorporate other technologies.
Trace noted that there is a joint international effort to develop a Universal
Remote Console Communication (URCC) protocol which would achieve this
functionality and that existence of a standard protocol is essential to the
practical implementation of this provision. Unless a standard approach is
developed that both the standard product and peripheral device manufacturers
can build to, it would be difficult to meaningfully comply with this
provision.
Trace also noted that the NPRM would require that all products have both a
wireless and a hard-wire connection. Requiring that products have a standard
physical connector is expensive. The only ports currently supported by most
assistive technologies are RS232 serial ports. An infrared connector could be
fitted to these serial ports on the peripheral devices to add an infrared
capability to the peripheral devices. However, the opposite is not true for
customer premises equipment. It is not easy to add a physical port to
customer premises equipment. Trace recommended that the requirement for a
physical connection point be removed.
Response. The Board agrees that requiring a standard physical connector on
customer premises equipment may be an expensive strategy. Because an infrared
connector can be inexpensively added to the serial ports on peripheral
devices to add an infrared capability, the Board is deleting the requirement
for a physical connection point on products covered by section 255. An
appendix note has been added to alert readers that a standard has been
proposed that will empower wireless communication devices, such as cellular
phones, pagers and personal computers to transfer useful information over
short distances using IrDA infrared data communication ports.
Paragraph (b) of the proposed rule provided that products providing
auditory output must provide the auditory signal through an industry standard
connector at a standard signal level.
Comment. The Trace Center commented that some type of a standard approach
for providing audio output should be provided and that industry standard
connectors already exist. Trace recommended that miniature and sub-miniature
stereo jacks could meet this performance requirement. Another commenter
pointed out that this requirement is particularly important for telephones
that are not under the direct control of the user, such as public pay
telephones and business telephones. The commenter recommended that the
connecter should be capable of both input and output or two connectors should
be provided.
Response. An appendix note recommends the use of a standard 9 mm miniature
plug-in jack, common to virtually every personal tape player or radio, and
for small products, a subminiature phone jack could be used. No changes have
been made to this provision in the final rule.
Paragraph (c) of the proposed rule provided that products shall not cause
interference to hearing technologies (including hearing aids, cochlear
implants, and assistive listening devices) of a product user or bystander.
Comment. CTIA commented that the ANSI C63 Committee recognizes that the
electromagnetic interaction between wireless telephones and hearing aids is
an interference management issue that can be best resolved through the
cooperative and joint efforts of the affected parties. Mitigation of
electromagnetic interference requires an examination of both devices, i.e.,
the wireless telephone and the hearing aid, together, rather than in
isolation.
TIA recommended that products should meet the relevant standards concerning
electromagnetic compatibility, so as to function without significant
interference with hearing technologies (including hearing aids, cochlear
implants, and assistive listening devices) that meet the corresponding
standards for such technologies. The Trace Center pointed out that this
section was repeated in Subpart C and Subpart D and that the repetition was
unnecessary.
Response. As noted in the discussion to section 1193.43 (h), this section
has been removed from Subpart D and subsequent paragraphs have been
redesignated accordingly. If it is not readily achievable to manufacture a
product under Subpart C that minimizes interference to hearing technologies
it follows that it is also not readily achievable to make the wireless
telephones and other customer premises equipment compatible with hearing
technologies to minimize interference under subpart D.
Paragraph (d) of the proposed rule provided that touchscreen and touch-
operated controls shall be operable without requiring body contact or close
body proximity.
No substantive comments were received regarding this section and no changes
have been made in the final rule other than to redesignate this provision as
paragraph (c).
Paragraph (e) of the proposed rule provided that products which provide a
function allowing voice communication and which do not themselves provide a
TTY functionality shall provide a standard non-acoustic connection point for
TTYs. The proposed rule also provided that it shall also be possible for the
user to easily turn any microphone on the product on and off to enable the
user who can talk to intermix speech with TTY use.
Comment. Nortel recommended that standards are needed for TTYs. Absent the
development of industry-wide standards for TTY data formats, it will be very
difficult for customer premises equipment manufacturers to assure compliance
with TTYs and that the establishment of interworking standards among various
makers of TTYs will facilitate compatibility with telecommunications devices.
Nortel also noted that compatibility does not ensure that usable
communications will be provided, because other factors in the environment can
affect the reliability of the transmissions. For example, the work that
hearing aid manufacturers and handset manufacturers have jointly undertaken
has greatly improved the compatibility of hearing aids with fluxcoils, but
interference from outside sources (such as computers) can disrupt the
usability of the handset by the hearing aid wearer.
The Trace Center strongly supported this provision. It pointed out that to
meet this requirement an RJ11 plug or adaptor on a phone could be installed.
Trace suggested that it now appears that a simple audio connector that could
be compatible with standard headset jacks on cellular phones could be
established as a standard mechanism. Such a standard could evolve that would
allow TTYs to be easily connected to a wide range of phones, including
miniature and subminiature phones using a simple cable.
Response. If a TTY is specialized customer premises equipment, it is a
subset of customer premises equipment and, therefore, subject to these
guidelines. The Board agrees that manufacturers of other types of equipment
need to be cognizant of the capabilities of telecommunications equipment and
customer premises equipment. However, as is pointed out earlier, the statute
places the responsibility for compatibility on the telecommunications
equipment and customer premises equipment manufacturer and neither the
Telecommunications Act or any other statute gives the Board authority to
regulate manufacturers of peripheral devices. No changes have been made in
the final rule other than to redesignate this provision as paragraph (d).
Paragraph (f) of the proposed rule provided that products providing voice
communication functionality must be able to support use of all cross-
manufacturer non-proprietary standard signals used by TTYs. In addition, this
paragraph would require computer modems to support protocols which are
compatible with TTYs.
Comment. CTIA has urged the FCC to initiate a separate proceeding to revise
its minimum technical standards and consider the suitability of the ITU's
V.18 standard and other functional equivalents in providing reliable TTY
communications through digital wireless systems. CTIA noted that the ITU has
published its draft recommendation for the V.18 standard.6 Commenters also
noted that as proposed, the provision suggested that TTY signal compatibility
applied only to products which provided voice communication functionality,
apparently excluding communication through a modem.
Note 6 ITU has published its draft recommendation for the V.18 standard. It
can be accessed through the Internet at: http//tap.gallaudet.edu/V-18.htm.
Response. An appendix note has been added which encourages the use of the
V.18 standard. The provision has been reworded in the final rule to clarify
that it applies to more than voice communication and has been redesignated as
paragraph (e).
Regulatory Process Matters
Executive Order 12866
The Board has determined that this final rule is a significant regulatory
action for purposes of Executive Order 12866 since it raises novel legal or
policy issues arising out of legal mandates. The Board has analyzed the
benefits and costs of the rule and has determined that it is not likely to
have an annual effect on the economy of $100 million or more, or adversely
affect in a material way the economy, a sector of the economy, productivity,
competition, jobs, the environment, public health or safety, or State, local,
or tribal governments or communities. Although the benefits and costs are
difficult to quantify, the rule is expected to have a positive economic
impact. The Board has adhered to the principles of Executive Order 12866 in
developing the rule and it represents a balanced and reasonable means of
achieving the objectives of section 255 of the Telecommunications Act.
Regulatory Flexibility Act
The Regulatory Flexibility Act of 1980, 5 U.S.C. Section 601, et seq.,
(RFA) was enacted to ensure that small entities are not unnecessarily
burdened by government regulations. The RFA requires agencies to review rules
that may have a "significant economic impact on a substantial number of small
entities."
The Notice of Proposed Rulemaking (NPRM) issued in connection with this
rulemaking contained a certification that the rule, as proposed, would not
have a significant impact on a substantial number of small entities and an
initial regulatory flexibility analysis was not prepared. In particular, the
certification noted that manufacturers of telecommunications equipment and
customer premises equipment are required to comply with section 255 of the
Telecommunications Act of 1996 to the extent that it is "readily achievable,"
which means that it is "easily accomplishable and able to be carried out
without much difficulty or expense." Questions were included in the notice of
proposed rulemaking to elicit information on how the size of an entity should
affect what is readily achievable. The notice further provided that the Board
would analyze comments received to determine if a final regulatory
flexibility analysis would be prepared. Though the Board did not receive
comments objecting to the certification, upon review of comments received in
response to the proposed rule and the questions contained in the NPRM, the
Board has determined that the preparation of a Final Regulatory Flexibility
Analysis (FRFA) is appropriate. Accordingly, pursuant to the RFA, the Board's
FRFA is as follows:
I. Need For and Final Objectives of the Guidelines
The Access Board is responsible for developing accessibility guidelines in
conjunction with the Federal Communications Commission (FCC) under section
255(e) of the Telecommunications Act of 1996 for telecommunications equipment
and customer premises equipment. Telecommunications equipment is equipment,
other than customer premises equipment, used by a carrier to provide
telecommunications services, and includes software integral to such equipment
(including upgrades). Customer premises equipment is equipment employed on
the premises of a person (other than a carrier) to originate, route, or
terminate telecommunications. This includes specialized customer premises
equipment as a subset. The guidelines address the access needs of individuals
with disabilities affecting hearing, vision, movement, manipulation, speech,
and interpretation of information while balancing the resources of
manufacturers of telecommunications equipment to provide accessibility
features.
The guidelines do not require retrofitting of existing equipment or
retooling. These guidelines are applicable only to the extent that it is
readily achievable to do so. Manufacturers may consider costs and available
resources when determining whether and the extent to which compliance is
required.
Implementation of Section 255 of the Telecommunications Act will bring the
benefits of telecommunications to potentially 48.9 million Americans with
disabilities. It is anticipated that increased access to telecommunications
will positively impact employment, education and the quality of life for
individuals with disabilities.
II. Summary of Significant Issues Raised by the Public Comments in Response
to the Initial Regulatory Flexibility Certification
The Board received a number of comments regarding the application of the
term "readily achievable". The majority of those comments addressed the
application of factors to be considered in determining whether compliance
with the act was "readily achievable". In particular, questions were raised
regarding the resources of a parent company, comparable products, fundamental
alteration of a product, monetary resources, and technological expertise. The
comments received by the Board in relation to the application of the term
"readily achievable" are discussed in further detail in the Supplementary
Information section above. (See 1193.3 Definitions.)
Section 255 of the Telecommunications Act defines "readily achievable" as
having the same meaning as in the ADA. In the guidelines, "readily
achievable" is further defined in Section 1193.3 (Definitions) as "easily
accomplishable and able to be carried out without much difficulty or
expense." The Board expects that the FCC will ultimately set forth factors
that it will use to judge compliance under the readily achievable provisions
of the Telecommunications Act. In the interim, the Board has provided a list
of factors derived from the ADA as advisory guidance to assist manufacturers
in making readily achievable assessments. Those factors include: (a) the
nature and cost of the action needed to provide accessibility or
compatibility; (b) the overall resources of the manufacturer, including
financial resources, technical expertise, component supply sources,
equipment, or personnel; (c) the overall financial resources of any parent
corporation or entity, to the extent such resources are available to the
manufacturer; and (d) whether the accessibility solution results in a
fundamental alteration of the product. This latter factor, derived by
extension from the "undue burden" criteria of the ADA, takes into
consideration the effect adding an accessibility feature might have on a
given product.
Inherent in the concept of "readily achievable" is a recognition of the
differences in the size and resources of manufacturers and readily achievable
assessments will necessarily require a case by case determination of the
impact of the regulations on small businesses.
III. Description and Estimate of the Number of Small Businesses to Which
These Guidelines Will Apply
Covered Entities: Manufacturers of telecommunications equipment and
customer premises equipment are required by Sec. 255 of the
Telecommunications Act of 1966 to "ensure that the equipment is designed,
developed and fabricated to be accessible to and usable by individuals with
disabilities, if readily achievable." Section 1193.3 of the guidelines
defines a manufacturer covered by Sec. 255 as "a manufacturer of
telecommunications equipment or customer premises equipment that sells to the
public or to vendors that sell to the public; a final assembler." The
definitions of customer premises equipment and telecommunications equipment
help to further define which manufacturers are covered by Sec. 255:
The term "customer premises equipment" means equipment employed on the
premises of a person (other than a carrier) to originate, route, or terminate
telecommunications. (See Sec. 1193.3 Definitions)
The term "telecommunications equipment" means equipment, other than
customer premises equipment, used by a carrier to provide telecommunications
services, and includes software integral to such equipment (including
upgrades). (See Sec. 1193.3 Definitions)
The Access Board guidelines cover those manufacturers of equipment that
function as customer premises equipment and telecommunications equipment.
Examples of customer premises equipment may include but are not limited to:
wireline and wireless telephones, computers when employed on the premises of
a person to originate, route or terminate telecommunications (i.e., Internet
telephony or computer telephone calls with TTY software), or direct dial TTYs
which "originate, route or terminate telecommunications." The definition of
telecommunications equipment includes switches used to direct
telecommunications network services.
This rule pertains only to functions directly related to
telecommunications. For example, only a computer with a modem can function as
telecommunications equipment or customer premises equipment and only the
modem functions are associated with telecommunications. Therefore, the
requirements of this rule apply only to the modem functions (hardware and
software operation), and incidental functions required for initialization
(turning the computer on and launching the telecommunications program),
necessary to engage in telecommunications. All other functions of the
computer not related to telecommunications are not covered, such as word
processing, file searching, operating system commands, and directory
manipulation.
Small Businesses: The term "small business" is defined by the RFA as having
the same meaning as the term "small business concern" under section 632 of
the Small Business Act, 15 U.S.C. Sec. 632. A "small business concern" under
Section 632 is defined as "one which is independently owned and operated and
which is not dominant in its field of operation." Further, Section
632(a)(2)(A) provides that the Administrator of the Small Business
Administration may provide additional criteria by which a concern "may be
determined to be a small business concern."
There are three industry categories established by the Small Business
Administration which are applicable to these guidelines:
(1) Establishments primarily engaged in manufacturing wire telephone and
telegraph equipment.7 Included are establishments manufacturing modems and
other telephone and telegraph communications interface equipment. Firms
primarily engaged in the manufacturing of wire telephone and telegraph
equipment are considered to be small businesses if they employ 1,000 or fewer
employees. (See 13 CFR 121.201.) Census data indicates that there are 471
such establishments, of which 92% or 432 are small business concerns.8
Note 7 Executive Office of the President, Office of Management and Budget,
Standard Industrial Classification Manual (1987) (SIC 3561).
Note 8 U.S. Small Business Administration, Industry and Employment Size of
Enterprise for 1994, Table 7, SIC 3561 (U.S. Bureau of the Census data under
contract to the SBA).
(2) Establishments primarily engaged in manufacturing electronic
computers.9 As determined by the Small Business Administration, a
manufacturer of electronic computers is considered to be a small business
entity for purposes of the RFA if it has 1,000 or fewer employees. (See 13
CFR 121.201.) According to the U.S. Bureau of the Census data, there are
approximately 632 such firms, of which approximately 594 or 94% percent
qualify as small businesses.10 However, not all of the entities which are
engaged in manufacturing electronic computers identified in the Census data
are covered entities under the Telecommunications Act. For example, a
computer which does not have a modem would not be a product which is subject
to the requirements of the Telecommunications Act and therefore, the
manufacturing of that computer would not be a function covered by this rule.
Note 9 Executive Office of the President, Office of Management and Budget,
Standard Industrial Classification Manual (1987) (SIC 3571).
Note 10 U.S. Small Business Administration, Industry and Employment Size of
Enterprise for 1994, Table 7, SIC 3571 (U.S. Bureau of the Census data under
contract to the SBA).
(3) Establishments primarily engaged in manufacturing radio and television
broadcasting and communications equipment.11 These establishments are
considered to be small business concerns if they employ 750 or fewer
employees. (See 13 CFR 121.201.) Census data indicates that there are 826
establishments engaged in the manufacturing of radio and television
broadcasting and communications equipment, of which ninety-one percent or 755
of those firms are considered small business concerns.12 Not all of these
businesses would be subject to the requirements of these guidelines. The
Telecommunications Act addresses the transmittal of information between or
among points specified by the user, of information of the user's choosing,
without change in the form or content of the information as sent and
received. (See Section 1193.3 Definitions). To the extent that the radio,
broadcasting or computer equipment does not meet the definition of
"telecommunications", the manufacturing of that equipment is not a covered
function subject to the Telecommunications Act or these guidelines.
Note 11 Executive Office of the President, Office of Management and Budget,
Standard Industrial Classification Manual (1987) (SIC 3563).
Note 12 U.S. Small Business Administration, Industry and Employment Size of
Enterprise for 1994, Table 7, SIC 3563 (U.S. Bureau of the Census data under
contract to the SBA).
IV. Description of Reporting, Recordkeeping and Other Compliance Requirements
Manufacturers of telecommunications equipment and customer premises
equipment are required by Section 255 to "ensure that the equipment is
designed, developed and fabricated to be accessible to and usable by
individuals with disabilities, if readily achievable." And when it is not
"readily achievable" to make products accessible to and usable by individuals
with disabilities, the manufacturer shall ensure that the equipment "is
compatible with existing peripheral devices or specialized customer premises
equipment commonly used by individuals with disabilities to achieve access,
if readily achievable." [47 U.S.C. 255(b)(d)] Section 255 also places
requirements on telecommunications service providers. Telecommunications
service providers requirements are however under the jurisdiction of the FCC
and therefore are not addressed in the Access Board guidelines.
Section 1193.23 Product design, development and evaluation. This section
requires that, where readily achievable, manufacturers must evaluate the
accessibility, usability, and compatibility of telecommunications equipment
and customer premises equipment and incorporate such evaluation throughout
product design, development, and fabrication, as early and consistently as
possible. Manufacturers must develop a process to ensure that products are
designed, developed and fabricated to be accessible whenever it is readily
achievable. Since what is readily achievable will vary according to the stage
of development (i.e., some things will be readily achievable in the design
phase which are not in later phases), barriers to accessibility, usability,
and compatibility must be identified throughout product design and
development, from conceptualization to production. The details of such a
process will vary from one company to the next, and this section does not
specify the structure or specific content of a process. Instead, this section
sets forth a series of factors that a manufacturer must consider in
developing such a process. How, and to what extent, each of the factors is
incorporated in a specific process is up to the manufacturer. As the
capability to evaluate the accessibility, usability, and compatibility of
telecommunications equipment and customer premises equipment is already
available in-house, this provision will not require additional professional
skills. Under these guidelines, there are no recordkeeping requirements for
this provision.
There are many products for which evaluations can be relatively cursory as
long as the company is confident that it is aware of all relevant access
issues. At this end of the evaluation spectrum, only one hour of professional
time is projected to be required, for an estimated cost of $80. At the other
end of this spectrum, if there is a highly complex, convergent, or
revolutionary new product this may require as much as 37.5 hours of
professional evaluation throughout the product's development cycle, for an
estimated cost of $3,000.
Section 1193.33 Accessibility and usability. Section 1193.33 requires
that, where readily achievable, manufacturers must (1) provide a description
of the accessibility and compatibility features of the product upon request,
including, as needed, in alternate formats or alternate modes at no
additional charge; (2) provide end-user documentation in alternate format or
alternate modes upon request at no additional charge where end-user
documentation is provided; (3) ensure usable customer support and technical
support in the call centers and service centers which support their products
at no additional charge; and (4) include in general product information, the
contact method for obtaining the information required in (1) and (2) above.
In addition, where manufacturers provide employee training, they are
required to provide training appropriate to an employee's function, where
readily achievable. In developing, or incorporating information into existing
training programs, consideration must be given to the following factors:
accessibility requirements of individuals with disabilities; means of
communicating with individuals with disabilities; commonly used adaptive
technology used with the manufacturer's products; designing for
accessibility; and solutions for accessibility and compatibility.
The greatest cost involved with compliance with this provision is in the
production of alternate formats. For persons with a visual impairment, four
alternate formats exist: Braille, large print, electronic text, and audio
cassette. It is estimated that, where it is readily achievable to do so, the
cost of alternate formats for a 10 page user's manual will involve the
following:
** Braille: If the production of Braille documents is outsourced, costs
range from $.25 to $2 per page, depending on the complexity of material
(technical material is more expensive than literature) and the format in
which the raw text arrives (print is more expensive than computer files). A
reasonable estimate for producing 100 copies of a 10 page user's manual (30
bound pages of Braille) would be $1800. The cost per brailled document is
estimated at $18. If Braille is produced in-house, it can be produced by
clerical staff, using a standard computer, Braille translation software, and
a Braille printer. It is estimated that the cost to produce a ten page
document in-house would be $10. Editing a 10 page document will require
approximately 15 hours of editorial time by clerical staff.
** Large Print: One hundred copies of a 10 page document would cost
approximately $2.50 each to produce. The production of large print documents
can be handled with clerical assistance and will involve approximately 15
hours of editorial work for a 10 page document.
** Electronic Text: Providing the information on computer disk will require
an average of 15 hours of editorial work per product by clerical staff. The
estimated cost of the disk, shipping and handling, is approximately $2.25
each.
** Audio Cassette: Producing the information in an audio cassette format
will require approximately 15 hours of editorial work and recording time per
product by clerical staff. The estimated cost of the cassette, shipping and
handling is approximately $2.90 each.
Section 1193.39 Prohibited reduction of accessibility, usability and
compatibility. Section 1193.39 provides that no change shall be undertaken
which decreases or has the effect of decreasing the net accessibility,
usability, and compatibility of telecommunications equipment or customer
premises equipment. An exception provides that discontinuation of a product
is not prohibited.
The costs for this review, would be absorbed in the analysis for the
replacement or upgraded product required under 1193.23 and manufacturers
should not incur additional costs under this provision.
V. Description of Steps Taken To Minimize the Significant Economic Impact
Consistent With the Stated Objectives and Significant Alternatives Considered
and Rejected
In June 1996, the Access Board convened the Telecommunications Access
Advisory Committee (TAAC) to assist the Board in fulfilling its mandate under
section 255 of the Telecommunications Act. The members of the TAAC included
representatives of small and large manufacturers of telecommunications
equipment, customer premises equipment, specialized customer premises
equipment, peripheral devices, and software; organizations representing the
access needs of individuals with disabilities; telecommunication providers
and carriers; and other persons affected by the guidelines. In addition,
entities and individuals who were not members of the TAAC were invited to
participate in several subcommittees and task groups. Once the TAAC had
prepared a working draft of its recommendations, that draft was posted on the
Internet for interested businesses and individuals to comment on. Subsequent
revisions to the draft were also posted on the Internet. The Board
established a "listserve" on the Internet for the TAAC to conduct business
between its meetings. The listserve was opened to the public to follow and
many of the discussion points received from outside parties were also posted
on the listserve. The result of the Committee's work was a final report
containing recommendations to the Access Board for implementing section 255
of the Telecommunications Act. The Board then issued an NPRM which was based
on those recommendations. In addition to a large distribution of the NPRM and
the TAAC final report, the NPRM was posted on the Board's Internet page.
Comments received in electronic format in response to the NPRM were also
posted on the Internet for interested parties to review.
The Board received 159 comments in response to the NPRM. A further
discussion of the types of comments received may be found in the Background
section of this rule. The Board has addressed the majority of the comments
received in General Issues and Section-by-Section Analysis above.
Efforts to minimize impact. (1) In implementing Section 255 of the
Telecommunications Act, the Board has sought to minimize any disproportionate
burdens imposed on small businesses. As previously discussed, inherent in the
concept of "readily achievable" is a recognition of the differences in the
size and resources of manufacturers. Assessments of what is readily
achievable for a manufacturer to accomplish under the Telecommunications Act
will necessarily require a case by case determination. In addition, where
possible, the guidelines developed by the Board are written as performance
standards rather than prescriptive requirements. The guidelines require an
outcome, but do not prescribe in detail the process each entity much follow
to achieve that outcome. As a result, small businesses will have more
latitude and choice in how they comply with the requirements of the
guidelines. For example, Section 1193.23 (Product design, development and
evaluation) requires manufacturers to evaluate the accessibility, usability,
and compatibility of telecommunications equipment and customer premises
equipment and incorporate such evaluation throughout the product design,
development, and fabrication, as early and consistently as possible. The
Board is fully aware that different size manufacturers, or even the same
manufacturer at different times, must be given the flexibility to tailor any
such plan to its own particular needs. Therefore, while this section sets
forth the factors which must be considered in approaching how accessibility
will be provided, it does not prescribe any particular plan or content. It
does not require that such a process be submitted to any entity or that it
even be in writing. The requirement is outcome-oriented, and a process could
range from purely conceptual to formally documented, as suits the
manufacturer.
(2) The Board has included an Appendix with a list of strategies to make
telecommunications equipment accessible. This list is advisory, not
mandatory, and provides potential solutions for small manufacturers that do
not have the resources to research and develop solutions for accessible
products.
(3) Several changes were made to the final rule to reduce the impact of the
rule on all manufacturers in general, and small manufacturers in particular.
Those modifications include the following:
(a) The final guidelines do not require market research, testing or
consultation, only that they be considered and incorporated to the extent
deemed appropriate for a given manufacturer. If a large manufacturer has an
extensive marketing effort, involving surveys and focus groups, it may be
appropriate to include persons with disabilities in such groups. On the other
hand, some small companies do not do any real marketing, per se, but may just
notice that a product made by XYZ Corporation is selling well and, based on
this "marketing survey" it decides it can make a cheaper one. Clearly,
"involvement" of persons with disabilities is not appropriate in this case.
The final provision, therefore, has been revised to make it clear that these
activities are not expected to be created where none existed before. (See
1193.23 Product design, development and evaluation.)
(b) Section 1193.35 (Redundancy and selectability) has been reserved in the
final rule in recognition of the complexity such a requirement might add to
the design process, as well as the equipment itself. While this provision was
highly supported by the disability community, the Board felt it may be
premature to impose the requirement in the early stages of this regulation.
Initially, manufacturers will have enough difficulty finding a single readily
achievable solution to many accessibility problems. In particular, small
businesses with limited resources and design staff would be hard pressed to
develop multiple solutions. Instead, the Board is planning to focus its first
market monitoring report on this issue and then decide whether a requirement
is needed.
(c) Section 1193.37 was modified in the final rule to reduce the obligation
for equipment to be designed to pass through all information for access. As
proposed, the provision might have required manufacturers to constantly
monitor information characteristics of all types of peripheral equipment. The
final rule only requires the pass through of information presented in
standard industry formats.
(d) Section 1193.39 provides that no change shall be undertaken which
decreases or has the effect of decreasing the net accessibility, usability,
and compatibility of telecommunications equipment or customer premises
equipment. In response to concerns raised by manufacturers that this
provision might prevent a manufacturer from discontinuing an obsolete product
if it had an accessibility feature unless the same feature were incorporated
in its replacement, an exception was added to allow for product
discontinuation. In addition, the language as proposed was modified to
reference the "net" accessibility, usability and compatibility of products.
(e) Finally, section 1193.43(e) of the final rule adopts the private sector
ANSI standard for the volume level to be achieved, rather than the higher
level proposed in the NPRM.
Efforts to maximize benefits. Both large and small manufacturers will be
among the beneficiaries of the Telecommunications Act and these guidelines by
virtue of the expanding market for accessible telecommunication products. The
Electronic Industries Foundation, in its "Resource Guide for Accessible
Design of Consumer Electronics", 1996, notes "Today, one factor contributing
to market share is the increasing number of potential customers who
experience functional limitations as a result of aging or disabling
conditions.... While no product can be readily used by everyone, accessible
design can impact market size and market share through consideration of the
functional needs of all consumers, including those who experience functional
limitations as a result of aging or disabling conditions." A National Center
for Health Statistics (NCHS) survey also indicates that people with
disabilities are potentially an untapped market for the telecommunications
industry. As accessibility is incorporated into new products they will be
easier to use by the broadest audience possible.
Significant alternatives that were rejected. Based on the comments received
in response to the NPRM, the Board considered the application of the
guidelines to product "lines" or "families" rather than individual products
as long as accessible products with comparable, substantially comparable, or
similar features are available at a comparable cost. However, the statutory
language of the Telecommunications Act requires that all covered products
must be made accessible unless it is not readily achievable to do so. As the
Telecommunications Act did not provide a qualifier other than readily
achievable, the guidelines developed by the Board apply to all covered
products, as opposed to product lines or families. (See Section 1193.2
Scoping above for further discussion.)
VI. Report to Congress
The Access Board will forward a copy of this Final Regulatory Flexibility
Analysis along with this Final Rule in a report to Congress pursuant to
Section 251 of the Small Business Regulatory Enforcement Fairness Act. (5
U.S.C. 801(a)(1)(A)). A copy of this FRFA is also published in this final
rule. (5 U.S.C. 604(b)).
Unfunded Mandates Reform Act
This final rule does not include any Federal mandate that may result in the
expenditure by state, local, and tribal governments, in the aggregate, or by
the private sector, of $100 million or more in any one year.
Paperwork Reduction Act, Collection of Information: Telecommunications Act
Accessibility Guidelines
Section 1193.33 contains information collection requirements. As required
by the Paperwork Reduction Act of 1995, the Board submitted a copy of this
section (previously identified as section 1193.25 in the NPRM) to the Office
of Management and Budget (OMB) for its review. In addition, the Board's NPRM
solicited comments on any potential paperwork burden association with these
guidelines. As noted in the NPRM, the Board would consider comments received
(1) in evaluating whether the proposed collection of information is necessary
for the proper implementation of Section 255 of the Telecommunications Act of
1996, including whether the information will have a practical use; (2) in
evaluating the accuracy of the Board's estimate of the burden of the proposed
collection of information, including the validity of the methodology and
assumptions used; (3) to enhance the quality, usefulness, and clarity of the
information to be collected; and (4) to minimize the burden of collection of
information on those who are to respond. The Board received 24 comments which
addressed the appropriateness of the requirements of section 1193.33. The
major issues raised in those comments and the Board's responses are discussed
in the Section-by-Section analysis above. (See Section 1193.33). Comments
which specifically addressed the costs associated with section 1193.33 and
the application of the Paperwork Reduction Act are discussed below.
Summary of Significant Issues Raised by Public Comments in Response to the
NPRM Paperwork Reduction Act Analysis and Annual Reporting Burden Estimate.
Comment. The Telecommunications Industry Association (TIA) commented that
the Paperwork Reduction Act would also apply to the provision of information
in alternate formats or alternate modes. The calculations provided in the
Board's NPRM did not address the annual reporting burden for such costs. TIA
also suggested that the costs associated with training the "call-takers and
information providers" should be included in the public reporting and record-
keeping burden estimates under the Paperwork Reduction Act.
Response. The Board agrees that the costs associated with providing
information in alternate formats should be included in assessing the annual
reporting burden associated with this section. The Board has revised its
assessment to include such costs. However, to the extent that the costs of
training are associated with the dispensing of technical assistance, the
Board does not agree that those training costs should be included in the
annual reporting burden assessments. Section 1193.33 requires that
manufacturers (1) provide a description of the accessibility and
compatibility features of the product upon request (including, as needed,
alternate formats or alternate modes) and (2) provide end-user product
documentation in alternate formats or alternate modes upon request. With
respect to the reporting requirements of the Paperwork Reduction Act, only
the training costs associated with responding to these requests are
appropriate for inclusion in the annual reporting burden assessments.
Comment. TIA noted that the burdens associated with the application of this
section will "vary widely with companies and the types of equipment they
manufacture." While TIA did not provide final data concerning the estimated
annual burdens, it suggested that, based on a fragmentary sampling, the
Board's estimates of the number of respondents and the accessibility/
compatibility feature description and caller referral were too low. TIA
agreed that the Board's estimate of five minutes for average response time
was appropriate, but commented that communicating with persons with
disabilities, particularly in such alternate media as TTY, may require a
longer call duration. TIA questioned the Board's estimates with respect to a
contact point, citing the disparity between the Board's estimates for
requests for a description of the accessibility and compatibility features of
the product and the provision of a name and phone number for a contact point
to request additional information. TIA also questioned the Board's estimate
for the burden associated with providing the contact information noting that
five seconds is barely sufficient to complete the mutual introduction of
consumer caller and manufacturing employee responder.
Response. The Board agrees that the burdens associated with the application
of section 1193.33 will vary with companies and types of equipment. This is
true not only because of the varying complexity of the products covered by
these guidelines, but also because of the application of the concept of
readily achievable. As more fully discussed in the Section-by-Section
analysis above, manufacturers of telecommunications equipment and customer
premises equipment are required to comply with section 255 of the
Telecommunications Act of 1996 to the extent that it is "readily achievable,"
which means that it is "easily accomplishable and able to be carried out
without much difficulty or expense." Readily achievable assessments will
necessarily require a case by case determination based on the size and
resources of manufacturers. Because actual data concerning manufacturers'
future costs and resources is not available at this time, the figures
provided in the annual reporting burden estimates may be high depending on
the readily achievable determinations made by each manufacturer. The Board
has revised its estimates of the manufacturers of telecommunication products
covered by these guidelines to reflect the estimated number of manufacturers
assessed in the 1992 U.S. Census; Survey of Manufacturers. That number totals
479 manufacturers.
With respect to the issue of the difference between the Board's initial
assessment of the anticipated number of calls requesting a description of
accessibility and compatibility features and the anticipated number of
responses per manufacturer to provide a contact point, the disparity is
attributable to the fact that not all purchasers of products will request the
description of features, whereas all products must contain contact point
information. The estimate of five seconds is based on the Board's assessment
that it will only take a negligible amount of time to include the contact
information in its product literature. The annual reporting requirements do
not apply to the technical assistance rendered in contacting the manufacturer
at the number or address provided.
Collection of Information: Telecommunications Act Accessibility Guidelines;
Annual Reporting Burden
These regulations establish guidelines for accessibility, usability, and
compatibility of telecommunications equipment and customer premises equipment
covered by the Telecommunications Act of 1996. Based on the comments received
in response to the NPRM, the Board has revised its estimates of the public
reporting and recordkeeping burden for this collection of information. As
revised, the burden is estimated to be 107,982 hours in order for
manufacturers of telecommunications equipment and customer premises equipment
to provide (1) a description of the accessibility and compatibility features
of the equipment on request; (2) the contact method for obtaining information
concerning the accessibility and compatibility description of the equipment,
alternate formats and customer and technical support for the equipment; and
(3) end-user product documentation in alternate formats or alternate modes
upon request. Assuming there are 479 manufacturers of telecommunications
equipment covered by these guidelines, the annual hour burden averages 225
hours per manufacturer.
The revised estimated burden for manufacturers to incorporate the requested
information was calculated as follows:
(1) The annual hour burden associated with providing a description of the
accessibility and compatibility features of the equipment on request was
calculated to be 29,979 hours as follows:
Responding to requests for information:
Respondents 479.
Average responses x191.
Hours per response x.08 (5 minutes).
Annual reporting burden 7,319 hours.
Alternate formats:
Editorial (reformatting, reading for audio cassette, etc.): 22,500 hours
(assuming 5,000 new products are manufactured each year and that the
description of accessibility and compatibility features will average three
pages that will require an average of 1.5 hours per page of editorial work).
Assuming that an average of 50% of the Braille production is performed in-
house and 50% is outsourced, the impact would be 160 hours annually.
(2) The annual hour burden associated with providing the contact method to
obtain information concerning the accessibility and compatibility features of
the equipment, alternate formats and customer and technical support for the
equipment was calculated to be 2,500 hours and was based on the following
information: There are approximately 5,000 types of new telecommunications
products manufactured each year or 10.44 per manufacturer. The burden in
providing a contact method is in the identification of the contact method for
each type of product. Once the contact method is established, the time
involved in including the contact method in the existing product literature
is inconsequential. The burden associated with identifying a contact method
for each of the 5,000 types of new products manufactured each year is as
follows:
Respondents 479.
Average responses x10.44.
Hours per response x.5 (30 minutes).
Annual reporting burden 2,500 hours.
(3) The annual hour burden associated with providing end-user documentation
in accessible formats on request was calculated to be 75,503 hours as
follows:
Responding to requests for information: 0 hours. (Callers requesting
alternate format will request a description of accessibility features and
end-user documentation in a single call; or, the documentation will be
combined in a single document. The hour burden for the request for alternate
format is addressed in (1) above.
Alternate formats:
Editorial (reformatting, reading for audio cassette, etc.): 75,000 hours
(assuming 5,000 new products are manufactured each year and that the end-user
documentation will average ten pages)
Assuming that an average of 50% of the Braille production is performed in-
house and 50% is outsourced, the impact would be 503 hours annually.
The information collection requirements contained in Sec. 1193.33 of this
final rule have been approved by the Office of Management and Budget (OMB) in
accordance with the Paperwork Reduction Act of 1995 (42 U.S.C. 3501--3530),
and assigned OMB control number 3014-0010. An agency may not conduct or
sponsor, and a person is not required to respond to, a collection of
information unless the collection displays a valid control number.
Submission to Congress and the General Accounting Office
The Board has submitted a report containing this final rule to Congress and
the Comptroller General of the General Accounting Office prior to publication
in the Federal Register as required by the Small Business Regulatory
Enforcement Fairness Act of 1996. The rule is not a "major rule" under 5
U.S.C. 804 (2).
List of Subjects in 36 CFR Part 1193
Communications, Communications equipment, Individuals with disabilities,
Reporting and recordkeeping requirements, Telecommunications.
Authorized by vote of the Access Board on September 10, 1997.
Patrick D. Cannon,
Chair, Architectural and Transportation Barriers Compliance Board.
For the reasons set forth in the preamble, the Board adds part 1193 to
Chapter XI of title 36 of the Code of Federal Regulations to read as follows:
PART 1193--TELECOMMUNICATIONS ACT ACCESSIBILITY GUIDELINES
Subpart A--General
Sec.
1193.1 Purpose.
1193.2 Scoping.
1193.3 Definitions.
Subpart B--General Requirements
1193.21 Accessibility, usability, and compatibility.
1193.23 Product design, development, and evaluation.
Subpart C--Requirements for Accessibility and Usability
1193.31 Accessibility and usability.
1193.33 Information, documentation, and training.
1193.35 Redundancy and selectability. [Reserved]
1193.37 Information pass through.
1193.39 Prohibited reduction of accessibility, usability, and compatibility.
1193.41 Input, control, and mechanical functions.
1193.43 Output, display, and control functions.
Subpart D--Requirements for Compatibility With Peripheral Devices and
Specialized Customer Premises Equipment
1193.51 Compatibility.
Appendix to Part 1193--Advisory Guidance
Authority: 47 U.S.C. 255(e).
Subpart A--General
Sec. 1193.1 Purpose.
This part provides requirements for accessibility, usability, and
compatibility of telecommunications equipment and customer premises equipment
covered by the Telecommunications Act of 1996 (47 U.S.C. 255).
Sec. 1193.2 Scoping.
This part provides requirements for accessibility, usability, and
compatibility of new products and existing products which undergo substantial
change or upgrade, or for which new releases are distributed. This part does
not apply to minor or insubstantial changes to existing products that do not
affect functionality.
Sec. 1193.3 Definitions.
Terms used in this part shall have the specified meaning unless otherwise
stated. Words, terms and phrases used in the singular include the plural, and
use of the plural includes the singular.
Accessible. Telecommunications equipment or customer premises equipment
which comply with the requirements of subpart C of this part.
Alternate formats. Alternate formats may include, but are not limited to,
Braille, ASCII text, large print, and audio cassette recording.
Alternate modes. Different means of providing information to users of
products including product documentation and information about the status or
operation of controls. Examples of alternate modes may include, but are not
limited to, voice, fax, relay service, TTY, Internet posting, captioning,
text-to-speech synthesis, and video description.
Compatible. Telecommunications equipment or customer premises equipment
which comply with the requirements of subpart D of this part.
Customer premises equipment. Equipment employed on the premises of a person
(other than a carrier) to originate, route, or terminate telecommunications.
Manufacturer. A manufacturer of telecommunications equipment or customer
premises equipment that sells to the public or to vendors that sell to the
public; a final assembler.
Peripheral devices. Devices employed in connection with telecommunications
equipment or customer premises equipment to translate, enhance, or otherwise
transform telecommunications into a form accessible to individuals with
disabilities.
Product. Telecommunications equipment or customer premises equipment.
Readily achievable. Easily accomplishable and able to be carried out
without much difficulty or expense.
Specialized customer premises equipment. Equipment, employed on the
premises of a person (other than a carrier) to originate, route, or terminate
telecommunications, which is commonly used by individuals with disabilities
to achieve access.
Telecommunications. The transmission, between or among points specified by
the user, of information of the user's choosing, without change in the form
or content of the information as sent and received.
Telecommunications equipment. Equipment, other than customer premises
equipment, used by a carrier to provide telecommunications services, and
includes software integral to such equipment (including upgrades).
Telecommunications service. The offering of telecommunications for a fee
directly to the public, or to such classes of users as to be effectively
available directly to the public, regardless of the facilities used.
TTY. An abbreviation for teletypewriter. Machinery or equipment that
employs interactive text based communications through the transmission of
coded signals across the standard telephone network. TTYs can include, for
example, devices known as TDDs (telecommunication display devices or
telecommunication devices for deaf persons) or computers with special modems.
TTYs are also called text telephones.
Usable. Means that individuals with disabilities have access to the full
functionality and documentation for the product, including instructions,
product information (including accessible feature information),
documentation, and technical support functionally equivalent to that provided
to individuals without disabilities.
Subpart B--General Requirements
Sec. 1193.21 Accessibility, usability, and compatibility.
Where readily achievable, telecommunications equipment and customer
premises equipment shall comply with the requirements of subpart C of this
part. Where it is not readily achievable to comply with subpart C of this
part, telecommunications equipment and customer premises equipment shall
comply with the requirements of subpart D of this part, if readily
achievable.
Sec. 1193.23 Product design, development, and evaluation.
(a) Manufacturers shall evaluate the accessibility, usability, and
compatibility of telecommunications equipment and customer premises equipment
and shall incorporate such evaluation throughout product design, development,
and fabrication, as early and consistently as possible. Manufacturers shall
identify barriers to accessibility and usability as part of such a product
design and development process.
(b) In developing such a process, manufacturers shall consider the
following factors, as the manufacturer deems appropriate:
(1) Where market research is undertaken, including individuals with
disabilities in target populations of such research;
(2) Where product design, testing, pilot demonstrations, and product trials
are conducted, including individuals with disabilities in such activities;
(3) Working cooperatively with appropriate disability-related
organizations; and
(4) Making reasonable efforts to validate any unproven access solutions
through testing with individuals with disabilities or with appropriate
disability-related organizations that have established expertise with
individuals with disabilities.
Subpart C--Requirements for Accessibility and Usability
Sec. 1193.31 Accessibility and usability.
When required by Sec. 1193.21, telecommunications equipment and customer
premises equipment shall be accessible to and usable by individuals with
disabilities and shall comply with Secs. 1193.33 through 1193.43 as
applicable.
Sec. 1193.33 Information, documentation, and training.
(a) Manufacturers shall ensure access to information and documentation it
provides to its customers. Such information and documentation includes user
guides, installation guides for end-user installable devices, and product
support communications, regarding both the product in general and the
accessibility features of the product. Manufacturers shall take such other
steps as necessary including:
(1) Providing a description of the accessibility and compatibility features
of the product upon request, including, as needed, in alternate formats or
alternate modes at no additional charge;
(2) Providing end-user product documentation in alternate formats or
alternate modes upon request at no additional charge; and
(3) Ensuring usable customer support and technical support in the call
centers and service centers which support their products at no additional
charge.
(b) Manufacturers shall include in general product information the contact
method for obtaining the information required by paragraph (a) of this
section.
(c) Where manufacturers provide employee training, they shall ensure it is
appropriate to an employee's function. In developing, or incorporating
existing training programs, consideration shall be given to the following
factors:
(1) Accessibility requirements of individuals with disabilities;
(2) Means of communicating with individuals with disabilities;
(3) Commonly used adaptive technology used with the manufacturer's
products;
(4) Designing for accessibility; and
(5) Solutions for accessibility and compatibility.
Sec. 1193.35 Redundancy and selectability.
[Reserved]
Sec. 1193.37 Information pass through.
Telecommunications equipment and customer premises equipment shall pass
through cross-manufacturer, non-proprietary, industry-standard codes,
translation protocols, formats or other information necessary to provide
telecommunications in an accessible format. In particular, signal compression
technologies shall not remove information needed for access or shall restore
it upon decompression.
Sec. 1193.39 Prohibited reduction of accessibility, usability, and
compatibility.
(a) No change shall be undertaken which decreases or has the effect of
decreasing the net accessibility, usability, or compatibility of
telecommunications equipment or customer premises equipment.
(b) Exception: Discontinuation of a product shall not be prohibited.
Sec. 1193.41 Input, control, and mechanical functions.
Input, control, and mechanical functions shall be locatable, identifiable,
and operable in accordance with each of the following, assessed
independently:
(a) Operable without vision. Provide at least one mode that does not
require user vision.
(b) Operable with low vision and limited or no hearing. Provide at least
one mode that permits operation by users with visual acuity between 20/70 and
20/200, without relying on audio output.
(c) Operable with little or no color perception. Provide at least one mode
that does not require user color perception.
(d) Operable without hearing. Provide at least one mode that does not
require user auditory perception.
(e) Operable with limited manual dexterity. Provide at least one mode that
does not require user fine motor control or simultaneous actions.
(f) Operable with limited reach and strength. Provide at least one mode
that is operable with user limited reach and strength.
(g) Operable without time-dependent controls. Provide at least one mode
that does not require a response time. Alternatively, a response time may be
required if it can be by-passed or adjusted by the user over a wide range.
(h) Operable without speech. Provide at least one mode that does not
require user speech.
(i) Operable with limited cognitive skills. Provide at least one mode that
minimizes the cognitive, memory, language, and learning skills required of
the user.
Sec. 1193.43 Output, display, and control functions.
All information necessary to operate and use the product, including but not
limited to, text, static or dynamic images, icons, labels, sounds, or
incidental operating cues, shall comply with each of the following, assessed
independently:
(a) Availability of visual information. Provide visual information through
at least one mode in auditory form.
(b) Availability of visual information for low vision users. Provide visual
information through at least one mode to users with visual acuity between
20/70 and 20/200 without relying on audio.
(c) Access to moving text. Provide moving text in at least one static
presentation mode at the option of the user.
(d) Availability of auditory information. Provide auditory information
through at least one mode in visual form and, where appropriate, in tactile
form.
(e) Availability of auditory information for people who are hard of
hearing. Provide audio or acoustic information, including any auditory
feedback tones that are important for the use of the product, through at
least one mode in enhanced auditory fashion (i.e., increased amplification,
increased signal-to-noise ratio, or combination). For transmitted voice
signals, provide a gain adjustable up to a minimum of 20 dB. For incremental
volume control, provide at least one intermediate step of 12 dB of gain.
(f) Prevention of visually-induced seizures. Visual displays and indicators
shall minimize visual flicker that might induce seizures in people with
photosensitive epilepsy.
(g) Availability of audio cutoff. Where a product delivers audio output
through an external speaker, provide an industry standard connector for
headphones or personal listening devices (e.g., phone-like handset or earcup)
which cuts off the speaker(s) when used.
(h) Non-interference with hearing technologies. Reduce interference to
hearing technologies (including hearing aids, cochlear implants, and
assistive listening devices) to the lowest possible level that allows a user
to utilize the product.
(i) Hearing aid coupling. Where a product delivers output by an audio
transducer which is normally held up to the ear, provide a means for
effective wireless coupling to hearing aids.
Subpart D--Requirements for Compatibility With Peripheral Devices and
Specialized Customer Premises Equipment
Sec. 1193.51 Compatibility.
When required by subpart B of this part, telecommunications equipment and
customer premises equipment shall be compatible with peripheral devices and
specialized customer premises equipment commonly used by individuals with
disabilities to achieve accessibility, and shall comply with the following
provisions, as applicable:
(a) External electronic access to all information and control mechanisms.
Information needed for the operation of products (including output, alerts,
icons, on-line help, and documentation) shall be available in a standard
electronic text format on a cross-industry standard port and all input to and
control of a product shall allow for real time operation by electronic text
input into a cross-industry standard external port and in cross-industry
standard format. The cross-industry standard port shall not require
manipulation of a connector by the user.
(b) Connection point for external audio processing devices. Products
providing auditory output shall provide the auditory signal at a standard
signal level through an industry standard connector.
(c) Compatibility of controls with prosthetics. Touchscreen and touch-
operated controls shall be operable without requiring body contact or close
body proximity.
(d) TTY connectability. Products which provide a function allowing voice
communication and which do not themselves provide a TTY functionality shall
provide a standard non-acoustic connection point for TTYs. It shall also be
possible for the user to easily turn any microphone on and off to allow the
user to intermix speech with TTY use.
(e) TTY signal compatibility. Products, including those providing voice
communication functionality, shall support use of all cross-manufacturer non-
proprietary standard signals used by TTYs.
Appendix to Part 1193--Advisory Guidance
Introduction
1. This appendix provides examples of strategies and notes to assist in
understanding the guidelines and are a source of ideas for alternate
strategies for achieving accessibility. These strategies and notes are not
mandatory. A manufacturer is not required to incorporate all of these
examples or any specific example. Manufacturers are free to use these or
other strategies in addressing the guidelines. The examples listed here are
not comprehensive, nor does adopting or incorporating them guarantee an
accessible product. They are meant to provide a useful starting point for
evaluating the accessibility of a product or conceptual design and are not
intended to inhibit innovation. For a more complete list of all of the
published strategies to date, as well as for further information and links to
on-going discussions, the reader is referred to the National Institute on
Disability and Rehabilitation Research's Rehabilitation Engineering Center on
Access to Telecommunications System's strategies Web site
(http://trace.wisc.edu/world/telecomm/).
2. This appendix is organized to correspond to the sections and paragraphs
of the guidelines in this part to which the explanatory material relates.
This appendix does not contain explanatory material for every section and
paragraph of the guidelines in this part.
Subpart A--General
Section 1193.3 Definitions
Readily Achievable
1. Section 255 defines "readily achievable" as having the same meaning as
in the Americans with Disabilities Act (ADA). However, the ADA applies the
term to the removal of barriers in existing public accommodations. Not all of
the factors cited in the ADA or the Department of Justice (DOJ) implementing
regulations (July 26, 1991) are easy to translate to the telecommunications
context where the term applies to telecommunications equipment and customer
premises equipment which is designed, developed and fabricated after February
8, 1996, the effective date of the Telecommunications Act of 1996.
2. It may not be readily achievable to make every product accessible or
compatible. Depending on the design, technology, or several other factors, it
may be determined that providing accessibility to all products in a product
line is not readily achievable. The guidelines do not require accessibility
or compatibility when that determination has been made, and it is up to the
manufacturer to make it. However, the assessment as to whether it is or is
not readily achievable cannot be bypassed simply because another product is
already accessible. For this purpose, two products are considered to be
different if they have different functions or features. Products which differ
only cosmetically, where such differences do not affect functionality, are
not considered separate products.
3. Below is a list of factors provided as interim guidance to manufacturers
to assist them in making readily achievable assessments. The factors are
derived from the ADA itself and the DOJ regulations and are presented in the
order in which they appear in those sources. Ultimately, the priority or
weight of these factors is a compliance issue, under the jurisdiction of the
Federal Communications Commission (FCC). Factors applicable to a
determination of whether an action is readily achievable include: the nature
and cost of the action needed to provide accessibility or compatibility; the
overall resources of the manufacturer, including financial resources,
technical expertise, component supply sources, equipment, or personnel; the
overall financial resources of any parent corporation or entity, only to the
extent such resources are available to the manufacturer; and whether the
accessibility solution results in a fundamental alteration of the product.
a. One factor in making readily achievable assessments is the nature and
cost of the action needed to provide accessibility or compatibility. The term
readily achievable means that an action is "easily accomplishable and able to
be carried out without much difficulty or expense." The nature of the action
or solution involves how easy it is to accomplish, including the availability
of technology and expertise, and the ability to incorporate the solution into
the production process. Obviously, knowing about an accessibility solution,
even in detail, does not mean it is readily achievable for a specific
manufacturer to implement it immediately. Even if it only requires
substituting a different, compatible part, the new part must be ordered and
integrated into the manufacturing process. A more extreme implementation
might require re-tooling or redesign. On the other hand, a given solution
might be so similar to the current design, development and fabrication
process that it is readily achievable to implement it virtually overnight.
b. Another factor in making readily achievable assessments is the overall
resources of the manufacturer, including financial resources, technical
expertise, component supply sources, equipment, or personnel. The monetary
resources of a manufacturer are obviously a factor in determining whether an
action is readily achievable, but it may be appropriate to consider other
resources, as well. For example, a company might have ample financial
resources and, at first glance, appear to have no reason for not including a
particular accessibility feature in a given product. However, it might be
that the company lacks personnel with experience in software development, for
example, needed to implement the design solution. One might reason that, if
the financial resources are available, the company should hire the
appropriate personnel, but, if it does, it may no longer have the financial
resources to implement the design solution. One would expect that the company
would develop the technical expertise over time and that eventually the
access solution might become readily achievable.
c. Another factor in making readily achievable assessments is the overall
financial resources of any parent corporation or entity, only to the extent
such resources are available to the manufacturer. Both the ADA statutory
definition of readily achievable and the DOJ regulations define the resources
of a parent company as a factor. However, such resources are considered only
to the extent those resources are available to the subsidiary. If, for
example, the subsidiary is responsible for product design but the parent
company is responsible for overall marketing, it may be appropriate to expect
the parent company to address some of the marketing goals. If, on the other
hand, the resources of a parent company are not available to the subsidiary,
they may not be relevant. This determination would be made on a case-by-case
basis.
d. A fourth factor in making readily achievable assessments is whether the
accessibility solution results in a fundamental alteration of the product.
This factor, derived by extension from the "undue burden" criteria of the
ADA, takes into consideration the effect adding an accessibility feature
might have on a given product. For example, it may not be readily achievable
to add a large display for low vision users to a small pager designed to fit
in a pocket, because making the device significantly larger would be a
fundamental alteration of the device. On the other hand, adding a voice
output may not involve a fundamental alteration and would serve both blind
and low vision users. In addition, adding an infrared port might be readily
achievable and would allow a large-display peripheral device to be coupled to
it. Of course fundamental alteration means a change in the fundamental
characteristic of the product, not merely a cosmetic or esthetic change.
Subpart B--General Requirements
Section 1193.23 Product Design, Development and Evaluation
Paragraph (a)
1. This section requires manufacturers to evaluate the accessibility,
usability, and compatibility of telecommunications equipment and customer
premises equipment and incorporate such evaluation throughout product design,
development, and fabrication, as early and consistently as possible.
Manufacturers must develop a process to ensure that products are designed,
developed and fabricated to be accessible whenever it is readily achievable.
Since what is readily achievable will vary according to the stage of
development (i.e., some things will be readily achievable in the design phase
which may not be in later phases), barriers to accessibility and usability
must be identified throughout product design and development, from
conceptualization to production. Moreover, usability can be seriously
affected even after production, if information is not provided in an
effective manner.
2. The details of such an evaluation process will vary from one company to
the next, so this section does not specify its structure or specific content.
Instead, this section sets forth a series of factors that a manufacturer must
consider in developing such a process. How, and to what extent, each of the
factors is incorporated in a specific process is up to the manufacturer.
3. Different manufacturers, or even the same manufacturer at different
times, have the flexibility to tailor any such plan to its own particular
needs. This section does not prescribe any particular plan or content. It
does not require that such a process be submitted to any entity or that it
even be in writing. The requirement is outcome-oriented, and a process could
range from purely conceptual to formally documented, as suits the
manufacturer.
4. The goal is for designers to be aware of access and incorporate such
considerations in the conceptualization of new products. When an idea is just
beginning to take shape, a designer would ask, "How would a blind person use
this product? How would a deaf person use it?" The sooner a manufacturer
makes its design team cognizant of design issues for achieving accessibility;
and proven solutions for accessibility and compatibility, the easier this
process will be.
Paragraph (b)(1)
Market Research
1. The guidelines do not require market research, testing or consultation,
only that they be considered and incorporated to the extent deemed
appropriate for a given manufacturer. If a manufacturer has a large marketing
effort, involving surveys and focus groups, it may be appropriate to include
persons with disabilities in such groups. On the other hand, some small
companies do not do any real marketing, per se, but may just notice that a
product made by XYZ Corporation is selling well and, based on this "marketing
survey" it decides it can make a cheaper one. Clearly, "involvement" of
persons with disabilities is not appropriate in this case.
2. A manufacturer must consider how it could include individuals with
disabilities in target populations of market research. It is important to
realize that any target population for which a manufacturer might wish to
focus a product contains individuals with disabilities, whether it is
teenagers, single parents, women between the ages of 25 and 40, or any other
subgroup, no matter how narrowly defined. Any market research which excludes
individuals with disabilities will be deficient.
Paragraph (b)(2)
Product Design, Testing, Pilot Demonstrations, and Product Trials
1. Including individuals with disabilities in product design, testing,
pilot demonstrations, and product trials will encourage appropriate design
solutions to accessibility barriers. In addition, such involvement may result
in designs which have an appeal to a broader market.
Paragraph (b)(3)
Working Cooperatively With Appropriate Disability-Related Organizations
1. Working cooperatively with appropriate disability-related organizations
is one of the factors that manufacturers must consider in their product
design and development process. The primary reason for working cooperatively
is to exchange relevant information. This is a two-way process since the
manufacturer will get information on barriers to the use of its products, and
may also be alerted to possible sources for solutions. The process will also
serve to inform individuals with disabilities about what is readily
achievable. In addition, manufacturers will have a conduit to a source of
subjects for market research and product trials.
2. Manufacturers should consult with representatives from a cross-section
of disability groups, particularly individuals whose disabilities affect
hearing, vision, movement, manipulation, speech, and interpretation of
information.
3. Because of the complex interrelationship between equipment and services
in providing accessibility to telecommunications products, coordination and
cooperation between manufacturers and service providers will be beneficial.
Involving service providers in the product development process will encourage
appropriate design solutions to accessibility barriers and permit the
exchange of relevant information.
Paragraph (b)(4)
Making Reasonable Efforts to Validate Unproven Access Solutions
1. Manufacturers must consider how they can make reasonable efforts to
validate any unproven access solutions through testing with individuals with
disabilities or with appropriate disability-related organizations that have
established expertise with individuals with disabilities. It is important to
obtain input from persons or organizations with established expertise to
ensure that input is not based merely on individual preferences or limited
experience.
2. This input should be sought from representatives from a cross-section of
disability groups, particularly individuals whose disabilities affect
hearing, vision, movement, manipulation, speech, and interpretation of
information.
Subpart C--Requirements for Accessibility and Usability
Section 1193.33 Information, Documentation, and Training
Paragraph (a)
1. This section requires that manufacturers provide access to information
and documentation. The information and documentation includes user guides,
installation guides, and product support communications, regarding both the
product in general and the accessibility features of the product. Information
and documentation should be provided to people with disabilities at no
additional charge. Alternate formats or alternate modes of this information
is also required to be available. Manufacturers should also encourage
distributors of their products to establish information dissemination and
technical support programs similar to those established by the manufacturer.
Alternate Formats and Alternate Modes
1. Alternate formats may include, but are not limited to, Braille, ASCII
text, large print, and audio cassette recording. Alternate modes may include,
but are not limited to, voice, fax, relay service, TTY, Internet posting,
captioning, text-to-speech synthesis, and video description.
2. In considering how to best provide product information to people with
disabilities, it is essential that information be provided in an alternate
format or mode that is usable by the person needing the information. For
example, some individuals who are blind might require a manual in Braille to
understand and use the product effectively. Other persons who are blind may
prefer this information on a computer disk. Persons with limited reading
skills may need this information recorded on audio cassette tape so they can
listen to the manual. Still other persons with low vision may be able to read
the text version of the manual if it is provided in a larger font. Likewise,
if a tutorial video is provided, persons who are deaf may require a captioned
version so that they will understand how to use the product effectively.
Finally, individuals who rely on TTYs will need direct TTY access to a
customer service line so they can ask questions about a product like everyone
else.
3. This portion of the appendix explains how to provide information in
alternate formats (Braille, ASCII text, large print, audio cassette) to
persons with disabilities.1
Note 1 This information was provided by the American Foundation for the
Blind.
Braille
4. Some persons who are blind rely on the use of Braille in order to obtain
information that is typically provided in print. These persons may need
Braille because of the nature of their disability (such as persons who are
deaf-blind) or because of the complexity of the material. Most large urban
areas have companies or organizations which can translate printed material to
Braille. On the other hand, manufacturers may wish to consider producing
Braille documents "in house" using a personal computer, Braille translation
software, and a Braille printer. The disadvantage is the difficulty in
ensuring quality control and accuracy. Software programs exist which can
translate common word processing formats directly into Braille, but they are
not always error free, especially if the document contains special
characters, jargon, graphics, or charts. Since the typical office worker will
not be able to proofread a Braille document, the initial apparent cost saving
may be quickly lost by having to re-do documents. The Braille translation
software costs approximately $500 and most Braille printers sold range from
$2,000 to $5,000, however some Braille printers, depending on the speed and
other features, do cost more. Depending on the quality of Braille to be
generated, a Braille printer in the $4,000 range should be adequate for most
users. By using automatic translation software, individuals who do not have
knowledge of Braille or who have limited computer skills may be able to
produce simple Braille documents without much trouble. If the document is of
a complex format, however, such as a text box over multiple columns, a
sophisticated knowledge of Braille translation software and formatting will
be required.
Electronic Text
5. People who are blind or have low vision and who have access to computers
may be able to use documents in electronic form. Electronic text must be
provided in ASCII or a properly formatted word processor file. Using
electronic text allows this information to be transmitted through e-mail or
other on-line telecommunications. Blind or low vision persons who have access
to a personal computer can then read the document using synthetic speech, an
electronic Braille display, a large print computer monitor, or they can
produce a hard copy in large print or Braille.
6. Documents prepared for electronic transmission should be in ASCII.
Documents supplied on disk should also be provided in either ASCII or a word
processor format usable by the customer. Word processing documents should be
properly formatted before distribution or conversion to ASCII. To be
correctly formatted, the document should be in Courier 10 point size and
formatted for an 80 character line. Tables should be converted to plain text.
Graphics or text boxes should be deleted and explained or described in text
format. This will allow the reader to understand all of the documentation
being presented. Replace bullets (**) with "*" or "-" and convert other
extended ASCII characters into text. When converting a document into ASCII or
word processor formats, it is important to utilize the appropriate "tab key"
and "centering key" rather than using the space bar. This is necessary
because Braille translation software relies on the proper use of commands to
automate the formatting of a Braille document.
Large Print
7. Persons with low vision may require documentation to be provided in
large print. Large print documents can easily be produced using a scalable
font from any good word processing program and a standard laser printer.
Using the document enlargement option on a photocopier will usually yield
unsatisfactory results.
8. To obtain the best results follow these guidelines:
a. It is preferable to use paper that is standard 8 1/2 x 11 inches.
Larger paper may be used, but care should be taken that a document does not
become too bulky, thus making it difficult to read. Always use 1 inch
margins. Lines longer than 6 1/3 inches will not track well for individuals
who must use a magnifier.
b. The best contrast with the least glare is achieved on very pale yellow
or cream-colored non-glossy paper, such as paper that is used for
photocopying purposes. To produce a more aesthetic looking document, an off-
white paper may be used and will still give good contrast while producing
less glare than white. Do not use dark colors and shades of red. Double-sided
copying (if print does not bleed through) will produce a less bulky document.
c. Remove formatting codes that can make reading more difficult. For
example, centered or indented text could be difficult to track because only a
few words will fit on a line. All text should begin at the left margin. Use
only left margin justification to maintain uniform spacing across lines.
Right margin justification can produce uneven spacing between letters and
words. Use 1 1/4 (1.25) line spacing; do not double space. Replace tabs with
two spaces. Page numbering should be at the top or bottom left. Avoid
columns. If columns are absolutely necessary, use minimum space between
columns. Use dot leaders for tabular material. For those individuals who are
able to read graphics (via the use of a magnifier or other assistive device)
graphics should be included, but placed on a separate page from the text. For
those individuals with low vision who are unable to read graphics, tables,
and charts this material must be removed from the document and an accurate
description of this material should be included in a text format.
d. There is no standard typeface or point size. For more universal access,
use 18 point type; anything larger could make text too choppy to read
comfortably. Use a good strong bold typeface. Do not use italics, fine, or
fancy typefaces. Do not use compressed typefaces; there should be normal
"white space" between characters.
e. Use upper and lowercase letters.
f. Using these instructions, one page of print (11-12 point type) will
equal approximately three pages of large print (14-18 point) depending on the
density of the text.
Cassette Recordings
9. Some persons who are blind or who have learning disabilities may require
documentation on audio cassettes. Audio materials can be produced
commercially or in-house. Agencies sometimes record material in-house and
purchase a high speed tape duplicator ($1,000-2,000) which is used to make
cassette copies from the master. The cost of a duplicator can be higher
depending upon the number of copies produced on a single run, and whether the
duplicator can produce standard speed two-sided copies or half-speed four-
sided copies. Although unit costs can be reduced by using the four-track,
half-speed format, this will require the reader to use a specially designed
playback machine. Tapes should be produced with "tone indexing" to allow a
user to skip back and forth from one section to another. By following a few
simple guidelines for selecting readers and creating recordings, most
organizations will be able to successfully record most simple documents.
10. Further guidance in making cassette recordings includes:
a. The reader should be proficient in the language being recorded.
b. The reader should be familiar with the subject. Someone who is somewhat
familiar with the technical aspects of a product but who can explain
functions in ordinary language would be a logical person to record an audio
cassette.
c. The reader should have good diction. Recording should be done in a
conversational tone and at a conversational pace; neither too slow nor too
fast.
d. The reader should be familiar with the material to minimize stumbling
and hesitation.
e. The reader should not editorialize. When recording a document, it should
be read in full. Graphic and pictorial information available to sighted
readers should be described in the narrated text. Tables and charts whose
contents are not already contained in text should be converted into text and
included in the recording.
f. The reader should spell difficult or unusual words and words of foreign
origin.
g. At the beginning of the tape, identify the reader, i.e., "This document
is being read by John Smith."
h. On each side of the tape, identify the document and the page number
where the reader is continuing, i.e., "tape 2, side 1, Guide to Barrier Free
Meetings, continuing on page 75."
i. For blind users, all cassettes should be labeled in Braille so that they
can easily be referenced in the appropriate order.
Alternate Modes
11. Information is provided increasingly through a variety of means
including television advertisements, Internet postings, information seminars,
and telephone. This portion of the appendix explains how to provide
information in some alternate modes (captioning, video description, Internet
postings, relay service, and TTY).
Captioning
12. When manufacturers of telecommunications equipment or customer premises
equipment provide videos with their products (such as tutorials or
information explaining various components of a product) the video should be
available with captioning. Closed captioning refers to assistive technology
designed to provide access to television for persons with hearing
disabilities that is visible only through the use of a decoder. Open captions
are visible at all times. Captioning is similar to subtitles in that the
audio portion of a television program is displayed as printed words on the
television screen. Captions should be carefully placed to identify speakers,
on-and off-screen sound effects, music and laughter. Increased captioning was
made possible because of the Television Decoder Circuitry Act which requires
all television sets sold in the United States with screens 13 inches or
larger to have built-in decoder circuitry.
13. Although captioning technology was developed specifically to make
television and video presentations accessible to deaf and hard of hearing
people, there has been widespread interest in using this technology to
provide similar access to meetings, classroom teaching, and conferences. For
meetings, video-conferences, information seminars, and the like, real-time
captioning is sometimes provided. Real-time captioning uses a stenographic
machine connected to a computer with translation software. The output is then
displayed on a monitor or projected on a screen.
Video Description
14. Just as manufacturers of telecommunications equipment and customer
premises equipment need to make their videos accessible to persons who are
deaf or hard of hearing, they must also be accessible to persons who are
blind or have low vision. This process is known as video description. Video
description may either be a separate audio track that can be played
simultaneously with the regular audio portion of the video material (adding
description during pauses in the regular audio), or it can be added to (or
"mixed" with) an existing soundtrack. The latter is the technique used for
videotapes.
Internet Postings
15. The fastest growing way to obtain information about a product is
through use of the Internet, and specifically the World Wide Web. However,
many Internet users with disabilities have difficulty obtaining this
information if it is not correctly formatted. This section provides
information on how to make a World Wide Web site more accessible to persons
with disabilities 2. Because of its structure, the Web provides tremendous
power and flexibility in presenting information in multiple formats (text,
audio, video, and graphic). However, the features that provide power and
elegance for some users present potential barriers for people with sensory
disabilities. The indiscriminate use of graphic images and video restrict
access for people who are blind or have low vision. Use of audio and non-
captioned video restrict access for people who are deaf or hard of hearing.
Note 2 This information is based on the document "Writing HTML Documents
and Implementing Accessibility for the World Wide Web" by Paul Fountaine,
Center for Information Technology Accommodation, General Services
Administration. For further information, see http:// www.gsa.gov/coca.
16. The level of accessibility of the information on the Web is dependent
on the format of the information, the transmission media, and the display
system. Many of the issues related to the transmission media and the display
system cannot be affected by the general user. On the other hand, anyone
creating information for a Web server has control of the accessibility of the
information. Careful design and coding of information will provide access to
all people without compromising the power and elegance of the Web site.
17. A few suggestions are:
a. Every graphic image should have associated text. This will enable a
person using a character-based program, such as Lynx, to understand the
material being presented in the graphical format. It also allows anyone who
does not want to wait for graphics to load to have quick access to the
information on the site.
b. Provide text transcriptions or descriptions for all audio output. This
will enable people who are deaf or hard of hearing to have access to this
information, as well as individuals who do not have sound cards.
c. Make any link text descriptive, but not verbose. For example, words like
"this", "here", and "click" do not convey enough information about the nature
of the link, especially to people who are blind. Link text should consist of
substantive, descriptive words which can be quickly reviewed by the user.
Conversely, link text which is too long bogs down efficient browsing.
d. Provide alternate mechanisms for on-line forms. Forms are not supported
by all browsers. Therefore, it is important to provide the user with an
opportunity to select alternate methods to access such forms.
e. All Web pages should be tested using multiple viewers. At a minimum,
pages should be tested with the latest version of Lynx to ensure that they
can be used with screen reader software.
Telecommunications Relay Services (TRS)
18. By using telecommunications relay services (TRS), it has now become
easier for persons with hearing and speech disabilities to communicate by the
telephone. TRS links TTY users with those who do not have a TTY and use
standard telephones. With TRS, a TTY user communicates with another person
with the help of a communications assistant who is able to talk on the
telephone and then communicate by typing the message verbatim, to the TTY
user. The communications assistant also reads the message typed by the TTY
user, or the TTY user may speak for him or herself using voice carry over.
19. There are now TRS programs in every state. Although TRS is very
valuable, it does have limitations. For example, relay calls take longer,
since they always involve a third party, and typing words takes longer than
speaking words.
Text Telephones (TTYs)
20. A TTY also provides direct two-way typed conversations. The cost of
these devices begins at approximately $200 and they can be operated by anyone
who can type.
21. The following information is excerpted from the brochure "Using a TTY"
which is available free of charge from the Access Board:
a. If the TTY line is also used for incoming voice calls, be sure the
person who answers the phone knows how to recognize and answer a TTY call.
You will usually hear silence, a high-pitched, electronic beeping sound, or a
pre-recorded voice message when it is a TTY call. If there is silence, assume
it is a TTY call.
b. TTYs should be placed near a standard telephone so there is minimal
delay in answering incoming TTY calls.
c. To initiate a TTY call, place the telephone headset in the acoustic cups
of the TTY adapter. If the TTY unit is directly connected to the phone line,
there is no need to put the telephone headset in the acoustic cups. Turn the
TTY on. Make sure there is a dial tone by checking for a steady light on the
TTY status indicator.
d. Dial the number and watch the status indicator light to see if the
dialed number is ringing. The ring will make a long slow flash or two short
flashes with a pause in between. If the line is busy, you will see short,
continuous flashes on the indicator light. When the phone is answered, you
will see an irregular light signal as the phone is picked up and placed in
the cradle. If you are calling a combination TTY and voice number, tap the
space bar several times to help the person on the other end identify this as
a TTY call.
e. The person who answers the call is the first to type. Answer the phone
as you would by voice, then type "GA".
f. "GA" means "I'm done, go ahead and type". "HD" means hold. "GA or SK"
means "Is there anything more, I'm done". "SK" means stop keying. This is how
you show that the conversation is ended and that you will hang up. It is
polite to type good-bye, thank you for calling, or some other closing remark
before you type "SK". Stay on the line until both parties type SKSK.
22. Because of the amount of time it takes to send and receive messages, it
is important to remember that short words and sentences are desired by both
parties. With some TTY calls it is often not possible to interrupt when the
other person is typing. If you get a garbled message in all numbers or mixed
numbers and letters, tap the space bar and see if the message clears up. If
not, when the person stops typing, you should type, "Message garbled, please
repeat." If the garbled messages continue, this may mean that one of the TTYs
is not working properly, there is background noise causing interference, or
that you may have a bad connection. In this case you should say something
like, "Let's hang up and I'll call you back."
23. The typical TTY message will include many abbreviations and jargon. The
message may also include misspelled words because, if the meaning is clear,
many callers will not bother to correct spelling since it takes more time.
Also, some TTY users communicate in American sign language, a language with
its own grammar and syntax. English may be a second language. Extend the same
patience and courtesy to TTY callers as you do to all others.
Paragraph (b)
1. This paragraph requires manufacturers to supply a point of contact for
obtaining information about accessibility features of the product and how to
obtain documents in alternate formats. This could be the name of a specific
person, a department or an office. Supplying a telephone number, and
preferably a separate TTY number, is the most universal method. Web site and
e-mail addresses are also desirable, but should not substitute for a
telephone number since many more people have access to a telephone than have
e-mail or Internet access. Of course, the means for requesting additional
accessibility information must, itself, be accessible.
2. Automated voice response systems are not usable by deaf and hard of
hearing persons. An approach to consider is to augment an automated voice
response system with an automated TTY response system that also detects
whether a caller is using voice or TTY.
3. The phone number should be prominently displayed in product literature.
Ideally, it should be displayed on the outside of the package so that a
potential buyer can obtain information about the accessibility before
purchase. In addition, manufacturers should acquaint their distributors with
this information so that they can assist customers with disabilities, such as
a blind person unable to read the package information.
Paragraph (c)
1. This paragraph requires manufacturers to consider including information
on accessibility in training a manufacturer provides to its staff. For
example, if technical support staff are trained on how to provide good
technical support, such a program should be expanded to include information
on accessibility features of the manufacturer's products and peripheral
devices that are compatible with them. Such staff should also have basic
information on how to handle TTY and relay calls. Personnel who deal directly
with the public, including market researchers, should be trained in basic
disability "etiquette."
Section 1193.35 Redundancy and Selectability [Reserved]
1. Although this section is reserved, manufacturers of telecommunications
equipment and customer premises equipment are encouraged to provide
redundancy such that input and output functions are available in more than
one mode.
2. Alternate input and output modes should be selectable by the user.
3. Products should incorporate multiple modes for input and output
functions so the user is able to select the desired mode.
a. Since there is no single interface design that accommodates all
disabilities, accessibility is likely to be accomplished through various
product designs which emphasize interface flexibility to maximize user
configurability and multiple, alternative and redundant modalities of input
and output.
b. Selectability is especially important where an accessibility feature for
one group of individuals with disabilities may conflict with an accessibility
feature for another. This potential problem could be solved by allowing the
user to switch one of the features on and off. For example, a conflict may
arise between captioning (provided for persons who are deaf or hard of
hearing) and a large font size (provided for persons with low vision). The
resulting caption would either be so large that it obscures the screen or
need to be scrolled or displayed in segments for a very short period of time.
c. It may not be readily achievable to provide all input and output
functions in a single product or to permit all functions to be selectable.
For example, switching requires control mechanisms which must be accessible
and it may be more practical to have multiple modes running simultaneously.
Whenever possible, it is preferable for the user to be able to turn on or off
a particular mode.
4. Some experiments with smart cards are showing promise for enhancing
accessibility. Instead of providing additional buttons or menu items to
select appropriate input and output modes, basic user information can be
stored on a smart card that triggers a custom configuration. For example,
insertion of a particular card can cause a device to increase the font size
on a display screen or activate speech output. Another might activate a
feature to increase volume output, lengthen the response time between
sequential operations, or allow two keys to be pressed sequentially instead
of simultaneously. This technology, which depends on the issuance of a
customized card to a particular individual, would allow redundancy and
selectability without adding additional controls which would complicate the
operation. As more and more functions are provided by software rather than
hardware, this option may be more readily achievable.
5. The increasing use of "plug-ins" allow a product to be customized to the
user's needs. Plug-ins function somewhat like peripheral devices to provide
accessibility and there is no fundamental problem in using plug-ins to
provide access, as long as the accessibility plug-ins are provided with the
product. For example, at least one computer operating system comes packaged
with accessibility enhancements which a user can install if wanted. In
addition, modems are typically sold with bundled software that provides the
customer premises equipment functionality. A compatible screen reader
program, for example, could be bundled with it. At least one software company
has developed a generalized set of accessibility tools designed to be bundled
with a variety of software products to provide access. As yet, such
developments are not fully mature; most products are still installed by
providing on-screen visual prompts, not accompanied by meaningful sounds.
Section 1193.41 Input, Controls, and Mechanical Functions
Paragraph (a)
Operable Without Vision
1. Individuals who are blind or have low vision cannot locate or identify
controls, latches, or input slits by sight or operate controls that require
sight. Products should be manufactured to be usable independently by these
individuals. For example, individuals who cannot see must use either touch or
sound to locate and identify controls. If a product uses a flat, smooth touch
screen or touch membrane, the user without vision will not be able to locate
the controls without auditory or tactile cues.
2. Once the controls have been located, the user must be able to identify
the various functions of the controls. Having located and identified the
controls, individuals must be able to operate them.
3. Below are some examples of ways to make products accessible to persons
with visual disabilities:
a. If buttons are used on a product, make them discrete buttons which can
be felt and located by touch. If a flat membrane is used for a keyboard,
provide a raised edge around the control areas or buttons to make it possible
to locate the keys by touch. Once an individual locates the different
controls, he or she needs to identify what the keys are. If there is a
standard number pad arrangement, putting a nib on the "5" key may be all that
is necessary for identifying the numbers. On a QWERTY keyboard, putting a
tactile nib on the "F" and "J" keys allows touch typists to easily locate
their hands on the key.
b. Provide distinct shapes for keys to indicate their function or make it
easy to tell them apart. Provide Braille labels for keys and controls for
those who read Braille to determine the function and use of controls.
c. Provide large raised letters for short labels on large objects. Where it
is not possible to use raised large letters, a voice mode selection could be
incorporated that announces keys when pressed, but does not activate them.
This would allow people to turn on the voice mode long enough to explore and
locate the item they are interested in, then release the voice mode and press
the control. If it is an adjustable control, voice confirmation of the status
may also be important.
d. Provide tactile indication on a plug which is not a self-orienting plug.
Wireless connections, which eliminate the need to orient or insert
connectors, also solve the problem.
e. Avoid buttons that are activated when touched to allow an individual to
explore the controls to find the desired button. If touch-activated controls
cannot be avoided (for example, on a touch screen), provide an alternate mode
where a confirm button is used to confirm selections (for example, items are
read when touched, and activated when the confirm button is pressed). All
actions should be reversible, or require confirmation before executing non-
reversible actions.
f. Once controls have been located and users know what the functions are,
they must be operable. Some types of controls, including mouse devices, track
balls, dials without markings or stops, and push-button controls with only
one state, where the position or setting is indicated only by a visual cue,
will not be usable by persons who are blind or have low vision. Providing a
rotational or linear stop and tactile or audio detents is a useful strategy.
Another is to provide keyboard or push-button access to the functions. If the
product has an audio system and microprocessor, use audio feedback of the
setting. For simple products, tactile markings may be sufficient.
g. Controls may also be shaped so that they can easily be read by touch
(e.g., a twist knob shaped like a pie wedge). For keys which do not have any
physical travel, some type of audio or tactile feedback should be provided so
that the individual knows when the key has been activated. A two-state key
(on/off) should be physically different in each position (e.g., a toggle
switch or a push-in/pop-out switch), so the person can tell what state the
key is in by feeling it.
h. If an optional voice mode is provided for operating a product, a simple
"query" mode can also be provided, which allows an individual to find out the
function and state of a switch without actually activating it. In some cases,
there may be design considerations which make the optimal mode for a sighted
person inaccessible to someone without vision (e.g., use of a touch screen or
mouse). In these cases, a primary strategy may be to provide a closely linked
parallel method for efficiently achieving the same results (e.g., keyboard
access) if there is a keyboard, or "SpeedList" access for touch screens.
Paragraph (b)
Operable With Low Vision and Limited or No Hearing
1. Individuals with low vision often also have hearing disabilities,
especially older individuals. These persons cannot rely solely on audio
access modes commonly used by people who are blind. Tactile strategies are
still quite useful, although many older persons may not be familiar with
Braille. The objective, therefore, is to maximize the number of people who
can use their residual vision, combined with tactile senses, to operate a
product.
2. Strategies for addressing this provision may include the following: a.
Make the information on the product easier to see. Use high-contrast print
symbols and visual indicators, minimize glare on the display and control
surfaces, provide adequate lighting, position controls near the items they
control to make them easy to find, and use Arabic instead of Roman numerals.
b. The type-face and type-spacing used can greatly affect legibility. The
spacing between letters should be approximately 1/16 the height of uppercase
letters and the spacing should be uniform from one label to the next. Also,
symbols can sometimes be used which are much more legible and understandable
than fine print.
c. Where the display is dynamic, provide a means for the user to enlarge
the display and to "freeze" it. In addition to making it easier to see, there
are strategies which can be used to reduce the need to see things clearly in
order to operate them.
d. A judicious use of color-coding, always redundant with other cues, is
extremely helpful to persons with low vision. These cues should follow
standard conventions, and can be used to reduce the need to read labels (or
read labels more than the first time). In addition, all of the tactile
strategies discussed under section 1193.41 (a) can also be used here.
Paragraph (c)
Operable With Little or No Color Perception
1. Many people are unable to distinguish between certain color
combinations. Others are unable to see color at all.
2. Strategies for addressing this provision include:
a. Eliminate the need for a person see color to operate the product. This
does not eliminate the use of color completely but rather requires that any
information essential to the operation of a product also be conveyed in some
other fashion.
b. Avoid color pairs such as red/green and blue/yellow, that are
indistinguishable by people with limited color perception.
c. Provide colors with different hues and intensity so that colored objects
can be distinguished even on a black and white screen by their different
appearance. Depending upon the product, the manufacturer may also be able to
allow users to adjust colors to match their preferences and visual abilities.
d. Avoid colors with a low luminance.
Paragraph (d)
Operable Without Hearing
1. Individuals who are deaf or hard of hearing cannot locate or identify
controls that require hearing. Products that provide only audio prompts
cannot be used by individuals who are deaf or hard of hearing. For example, a
voice-based interactive product that can be controlled only by listening to
menu items and then pressing buttons is not accessible. By addressing the
output issues under section 1193.43(d) many accessibility problems that
affect input under this section can be solved.
2. Some strategies include:
a. Text versions of audio prompts could be provided which are synchronized
with the audio so that the timing is the same.
b. If prompts are provided visually and no speech or vocalization is
required, most problems associated with locating, identifying, and operating
controls without hearing will be solved.
Paragraph (e)
Operable With Limited Manual Dexterity
1. Individuals may have difficulty manipulating controls on products for
any number of reasons. Though these disabilities may vary widely, these
persons have difficulty grasping, pinching, or twisting objects and often
have difficulty with finer motor coordination. Some persons may use a
headstick, mouthstick, or artificial limb.
2. Below are some strategies which will assist in designing products which
will meet the needs of these persons:
a. Provide larger buttons and controls, or buttons which are more widely
spaced, to reduce the likelihood that a user will accidentally activate an
adjacent control.
b. Provide guard bars between the buttons or near the buttons so that
accidental movements would hit the guard bars rather than accidentally
bumping switches.
c. Provide an optional mode where buttons must be depressed for a longer
period of time (e.g., SlowKeys) before they would accept input to help
separate between inadvertent motions or bumps and desired activation.
d. Where two buttons must be depressed simultaneously, provide an option to
allow them to be activated sequentially (e.g., StickiKeys).
e. Avoid buttons which are activated merely by touch, such as capacitance
switches. Where that is difficult to do (e.g., with touchscreens), provide a
"confirm" button which an individual can use to confirm that the item touched
is the desired one. Also, make all actions reversible, or request
confirmation before initiating non-reversible actions.
f. Avoid latches, controls, or key combinations which require simultaneous
activation of two or more buttons, or latches. Also, avoid very small
controls or controls which require rotation of the wrist or pinching and
twisting. Where this is not possible, provide alternate means for achieving
the same functions.
g. Controls which have non-slip surfaces and those that can be operated
with the side of the hand, elbow or pencil can be used to minimize physical
activity required. In some cases, rotary controls can be used if they can be
operated without grasping and twisting (e.g., a thin pie slice shape control
or an edge control). Providing a concave top on buttons makes them easier to
use.
h. Make it easier to insert cards or connectors by providing a bevel around
the slot or connector, or use cards or connectors which can be inserted in
any orientation or which self-center or self-align. Placing the slot or
connector on the front and near a ledge or open space allows individuals to
brace their hands or arms to make use of the slot or connector easier.
i. For some designs, controls which pose problems for individuals with
disabilities may be the most efficient, logical or effective mechanism for a
majority of users. In these cases, provide alternate strategies for achieving
the same functions, but which do not require fine manipulation. Speech input
or voice recognition could be provided as an alternate input, although it
should not be the only input technique.
Paragraph (f)
Operable With Limited Reach and Strength
1. Some individuals may have difficulty operating systems which require
reach or strength. The most straight-forward solution to this problem is to
place the controls where they can be easily reached with minimal changes to
body position. Many products also have controls located on different parts of
the product.
2. When this is the case, the following strategies may be used:
a. Allow the functions to be controlled from the keyboard, which is located
directly in front of the user.
b. Allow voice recognition to be used as an option. This provides input
flexibility, but should never be the only means for achieving a function.
c. Provide a remote control option that moves all of the controls for the
product together on a unit that can be positioned optimally for the
individual. This allows the individual to operate the product without having
to move to it. If this strategy is used, a standard communication format
would be important to allow the use of alternate remote controls for those
who cannot use the standard remote control.
d. Reduce the force needed to operate controls or latches and avoid the
need for sustained pressure or activity (e.g., use guards rather than
increased strength requirements to avoid accidental activation of crucial
switches).
e. Provide arm or wrist rests or supports, create short cuts that reduce
the number of actions needed, or completely eliminate the need to operate
controls wherever possible by having automatic adjustments.
f. Section 4.34.3 of the Americans with Disabilities Act Accessibility
Guidelines (ADAAG) also contains specific information concerning reach
ranges. ADAAG gives specific guidance concerning access to the built
environment. Section 4.34.3 indicates the reach ranges for a front or
parallel approach to equipment for individuals using a wheelchair. This
information may prove useful for those telecommunications manufacturers whose
equipment is stationary, such as an information kiosk.
Paragraph (g)
Operable Without Time-Dependent Controls
1. Many persons find it very difficult to operate time-dependent controls.
2. Some strategies which address this problem include:
a. Avoid any timed-out situations or provide instances where the user must
respond to a question or moving display in a set amount of time or at a
specific time (e.g., a rotating display).
b. Where timed responses are required or appropriate, allow the user to
adjust them or set the amount of time allotted to complete a given task. Warn
users that time is running out and allow them to secure extended time.
c. If the standard mode of operation would be awkward or inefficient, then
provide an alternate mode of operation that offers the same functions.
Paragraph (h)
Operable Without Speech
1. Many individuals cannot speak or speak clearly. Products which require
speech in order to operate them should also provide an alternate way to
achieve the same function.
2. Some strategies to achieve this include:
a. Provide an alternate mechanism for achieving all of the functions which
are controlled by speech. If a product includes speech identification or
verification, provide an alternate mechanism for this function as well.
b. Include individuals who are deaf or who have speech disabilities in the
subject populations that are used to develop voice recognition algorithms, so
that the algorithms will better accommodate a wider range of speech patterns.
Paragraph (i)
Operable With Limited Cognitive Skills
1. Many individuals have reduced cognitive abilities, including reduced
memory, sequence tracking, and reading skills. This does not necessarily
prevent these persons from using a telecommunications product or feature.
2. The following strategies are extensions of techniques for making
products easier for everyone to learn and use:
a. Use standard colors and shapes and group similar functions together. On
products which have some controls that are used by everyone and other
controls which would only be used by advanced users, it is generally good
practice to separate the two, putting the more advanced features behind a
door or under a separate menu item.
b. Products which read the contents of the display aloud, or controls which
announce their settings, are easier for individuals who have difficulty
reading.
c. Design products that are self-adjusting to eliminate additional controls
which must be learned, and reduce the visual clutter.
d. On products which have sign-in procedures, allow user settings to be
associated with them when they sign in or insert their identification card.
The system can then autoconfigure to them. Some new "smart cards" are being
designed with user preferences encoded on the card.
e. Where a complex series of steps is required, provide cuing to help lead
the person through the process. It is also helpful to provide an "undo" or
back up function, so that any mistakes can be easily corrected. Most people
will find this function helpful.
f. Where functions are not reversible, request some type of confirmation
from the user before proceeding. On labels and instructions, it is helpful to
use short and simple phrases or sentences. Avoid abbreviations wherever
possible. Eliminate the need to respond within a certain time or to read text
within a certain time.
Section 1193.43 Output, Displays, and Control Functions
Paragraph (a)
Availability of Visual Information
1. Just as persons with visual or cognitive disabilities need to be able to
operate the input, controls, and mechanical functions of a product, they must
also have access to the output functions.
2. The following are strategies for addressing this provision:
a. Provide speech output of all displayed text and labels. For information
which is presented in non-text form (e.g., a picture or graphic), provide a
verbal description unless the graphic is just decorative. When speech output
is provided, allow for the spoken message to be repeated if the message is
very long. Also, if the information being provided is personal in nature, it
is recommended that headphones be provided in order to assure privacy. A
message for stepping through menus is also helpful.
b. Providing Braille labels for controls is an extremely effective
mechanism for those individuals who read Braille.
c. Large raised print can also be used but is generally restricted to
rather large objects due to the size of the letters.
Paragraph (b)
Availability of Visual Information for Low Vision Users
1. Individuals with low vision often also have hearing disabilities,
especially older individuals. These persons cannot rely solely on audio
access modes commonly used by people who are blind. Tactile strategies are
still quite useful. Many people who have low vision can use their vision to
access visually presented information on a product.
2. Strategies for meeting this provision involve:
a. Provide larger, higher contrast text and graphics. Individuals with
20/200 vision can see lettering if they get close to it, unless it is very
small or has very poor contrast. Although 14 or 18 point type is recommended
for visual displays, it is usually not possible to put this size text on
small products.
b. Make the lettering as large and high contrast as possible to maximize
the number of people who can use the product.
c. On displays where the font size can be varied, allow the user to
increase the font size, even if it means that the user must pan or move in
order to see the full display.
Paragraph (c)
Access to Moving Text
1. Moving text can be an access problem because individuals with low
vision, or other disabilities may find it difficult or impossible to track
moving text with their eyes.
2. Strategies to address this requirement may include the following:
a. Provide a mechanism for freezing the text. Thus, persons could read the
stationary text and obtain the same information.
b. Provide scrolling to display one full line at a time, with a pause
before the next line replaces it.
c. Provide the same information in another type of display which does not
move. The right-to-left scrolling text on a TTY does not usually present a
problem because it can be controlled by asking the sender to type slower or
pause at specified intervals.
Paragraph (d)
Availability of Auditory Information
1. Individuals who have hearing disabilities are unable to receive auditory
output, or mechanical and other sounds that are emitted by a product. These
sounds are often important for the safe or effective operation of the
product. Therefore, information which is presented auditorial should be
available to all users.
2. Some strategies to achieve this include the following:
a. Provide a visual or tactile signal that will attract the person's
attention and alert the user to a call, page, or other message, or to warn
the user of significant mechanical difficulties in the product.
b. In portable products, a tactile signal such as vibration is often more
effective than a visual signal because a visual signal may be missed. An
auxiliary vibrating signaler might be effective if it is not readily
achievable or effective to build vibration into a portable product.
c. For stationary products, a prominent visual indicator in the field of
vision (e.g., a screen flash for a computer, or a flashing light for a
telephone) is effective. To inform the user of the status of a process (e.g.,
line status on a telephone call, power on, saving to disk, or disconnected),
text messages may be used. It is also desirable to have an image or light
that is activated whenever acoustic energy is present on a telephone line.
d. Speech messages should be portrayed simultaneously in text form and
displayed where easily seen by the user. Such captions should usually be
verbatim and displayed long enough to be easily read. If the product provides
speech messages and the user must respond to those messages (e.g.,
interactive voice response and voice mail), a TTY accessible method of
accessing the product could be provided.
e. TTY to TTY long distance and message unit calls from pay telephones are
often not possible because an operator says how much money must be deposited.
Technology exists to have this information displayed on the telephone and a
test installation is currently operating at the Butler plaza on the
Pennsylvania Turnpike. In addition, if the product provides interactive
communication using speech and video, it would be helpful to provide a method
and channel for allowing non-speech communication (e.g., text conversation)
in parallel with the video.
f. Certain operations of products make sounds that give status information,
although these sounds are not programmed signals. Examples include the whir
of an operating disk drive and the click of a key being pushed. Where sounds
of this type provide information important for operating the product, such as
a "beep" when a key is activated, provide a light or other visual
confirmation of activation.
Paragraph (e)
Availability of Auditory Information for People Who Are Hard of Hearing
1. People who are hard of hearing but not deaf can often use their hearing
to access auditory information on a product.
2. Strategies for addressing this requirement may include the following:
a. Improve the signal to noise ratio by making the volume adjustable,
between 18-25 dB, increasing the maximum undistorted volume, and minimizing
background noise by such methods as better coupling between the signal source
and the user.
b. Alerting tones are most likely to be heard if they involve multiple
tones, separated in frequency, which contrast with the environment.
c. Occasionally, varying tones may be preferred for attracting attention.
If speech is used, it is best to test its intelligibility with individuals
who are hard of hearing to maximize its clarity and ease of understanding.
Provide the ability for the user to have any messages repeated or to repeat
the message if no response is received from the user.
d. For essential auditory information, the information might be repeated
and an acknowledgment from the user requested.
e. The intelligibility of the output can also be maximized by the location
of the speakers and by keeping the speakers away from noise sources. However,
visual displays are often more desirable than loud prompts or alerts, because
the latter reduce privacy and can annoy others unless the amplified signal is
isolated by means of a headphone, induction coupling, direct plug-in to a
hearing aid, or other methods.
f. The use of a telephone handset or earcup which can be held up to the ear
can improve intelligibility without disturbing others in the area. If a
handset or earcup is used, making it compatible with a hearing aid allows
users to directly couple the auditory signal to their hearing aids. If the
microphone in the handset is not being used, turning it off will also reduce
the amount of background noise which the person hears in the earpiece.
Providing a headphone jack also allows individuals to plug in headphones,
induction loops, or amplifiers which they may use to hear better.
Paragraph (f)
Prevention of Visually-Induced Seizures
1. Individuals with photo-sensitive epilepsy can have a seizure triggered
by displays which flicker or flash, particularly if the flash has a high
intensity and within certain frequency ranges.
2. Strategies to address this requirement involve reducing or eliminating
screen flicker or image flashing to the extent possible. In particular, the
rates of 2 Hz or lower or 70 Hz or higher are recommended. This
recommendation reflects current research data on people with photosensitive
epilepsy which indicates that the peak sensitivity for these individuals is
20 Hz and that the sensitivity then drops off in both directions.
3. The chance of triggering seizures can also be reduced by avoiding very
bright flashes which occupy a large part of the visual field (particularly in
the center of the visual field) in order to minimize the impact on the visual
cortex.
Paragraph (g)
Availability of Audio Cutoff
1. Individuals using the audio access mode, as well as those using a
product with the volume turned up, need a way to limit the range of audio
broadcast.
2. If an audio headphone jack is provided, a cut-off switch can be included
in the jack so that insertion of the jack would cut off the speaker. If a
telephone-like handset is used, the external speakers can be turned off when
the handset is removed from the cradle.
Paragraph (h)
Non-Interference With Hearing Technologies
1. Individuals who are hard of hearing use hearing aids and other assistive
listening devices but these devices cannot be used if a telecommunications
product introduces noise into the listening aids because of stray
electromagnetic interference.
2. Strategies for reducing this interference (as well as improving hearing
aid immunity) are being researched. The most desirable strategy is to avoid
the root causes of interference when a product is initially designed. If the
root sources of interference cannot be removed, then shielding, placement of
components to avoid hearing aid interference, and field-canceling techniques
may be effective. Standards are being developed to limit interference to
acceptable levels, but complete elimination for some technologies may not yet
be practical.
3. In April 1996, the American National Standards Institute (ANSI)
established a task group (ANSI C63) under its subcommittee on medical devices
to develop standards to measure hearing aid compatibility and accessibility
to digital wireless telecommunications. The C63.19 task group is continuing
to develop its standard, C63.19-199X, American National Standard for Methods
of Measurement for Hearing Aid Compatibility with Wireless Communications
Devices. When the standard is completed, the Board intends to reference it in
this appendix.
Paragraph (i)
Hearing Aid Coupling
1. Many individuals who are hard of hearing use hearing aids with a T-coil
(or telecoil) feature to allow them to listen to audio output of products
without picking up background noise and to avoid problems with feedback,
signal attenuation or degradation.
2. The Hearing Aid Compatibility (HAC) Act defines a telephone as hearing
aid compatible if it provides internal means for effective use with hearing
aids and meets established technical standards for hearing aid compatibility.
3. The technical standards for HAC telephones are specified in ANSI/EIA-
504-1989, "Magnetic Field Intensity Criteria for Telephone Compatibility with
Hearing Aids," ANSI/TIA/EIA-504-1-1994, "An Addendum to EIA-504," which adds
the HAC requirements, and the FCC regulations at 47 CFR 68.317 (a).
4. A good strategy for addressing this requirement for any product held up
to the ear would be to meet these same technical requirements. If not readily
achievable to provide built-in telecoil compatibility, other means of
providing the electro-magnetic signal is the next strategy to be considered.
Subpart D " Requirements for Compatibility With Peripheral Devices and
Specialized Customer Premises Equipment
Section 1193.51 Compatibility
Paragraph (a)
External Electronic Access to All Information and Control Mechanisms
1. Some individuals with severe or multiple disabilities are unable to use
the built-in displays and control mechanisms on a product.
2. The two most common forms of manipulation-free connections are an
infrared connection or a radio frequency connection point. Currently, the
Infrared Data Association (IrDA) infrared connection point is the most
universally used approach..
3. The Infrared Data Association together with dominant market players in
the cellular and paging industries, Ericsson, Matsushita/Panasonic, Motorola,
NEC, Nokia, NTT DoCoMo, Puma, and TU-KA Phone Kansai, announced on April 25,
1997 a proposed set of standards that will empower wireless communication
devices, such as cellular phones, pagers and personal computers to transfer
useful information over short distances using IrDA infrared data
communication ports. Because the proposed standard is designed to be
scalable, it is easy-to-adopt by a wide range of wireless devices from pagers
to more enhanced communications tools such as smart phones. (See
http://www.irda.org).
4. Adding an infrared connector to the serial port of a peripheral device
or specialized customer premises equipment will make these products more
compatible with each other and with customer premises equipment.
5. An infrared link can provide a mechanism for providing access to
smaller, more advanced telecommunication devices and provide a safety net for
products which are unable to incorporate other technologies. There is a joint
international effort to develop a Universal Remote Console Communication
(URCC) protocol which would achieve this functionality. (See
http://trace.wisc.edu/world/urc/).
Paragraph (b)
Connection Point for External Audio Processing Devices
1. Individuals using audio peripheral devices such as amplifiers, telecoil
adapters, or direct-connection into a hearing aid need a standard, noise free
way to tap into the audio generated by a product.
2. Individuals who cannot hear well can often use products if they can
isolate and enhance the audio output. For example, they could plug in a
headphone which makes the audio louder and helps shut out background noise;
they might feed the signal through an amplifier to make it louder, or through
filters or frequency shifters to make it better fit their audio profile. If
they are wearing a hearing aid, they may directly connect their hearing aid
to the audio signal or plug in a small audio loop which allows them to couple
the audio signal through their hearing aid's built-in T-coil.
3. Devices which can process the information and provide visual and/or
tactile output are also possible. The most common strategy for achieving this
requirement is the use of a standard 9 mm miniature plug-in jack, common to
virtually every personal tape player or radio. For small products, a
subminiature phone jack could be used.
Paragraph (c)
Compatibility of Controls With Prosthetics
1. Individuals who have artificial hands or use headsticks or mouthsticks
to operate products have difficulty with capacitive or heat-operated controls
which require contact with a person's body rather than a tool. Individuals
who wear prosthetics are unable to operate some types of products because
they either require motions that cannot easily be made with a prosthetic
hand, or because products are designed which require touch of the human skin
to operate them (e.g., capacitive touchscreen kiosks), making it impossible
for individuals with artificial arms or hands to operate, except perhaps with
their nose or chin. Some individuals who do not have the use of their arms
use either a headstick or a mouthstick to operate products. Controls and
mechanisms which require a grasping and twisting motion should be avoided.
Paragraph (d)
TTY Connectability
1. Acoustic coupling is subject to interference from ambient noise, as many
handsets do not provide an adequate seal with TTYs. Therefore, alternate
(non-acoustic) connections are needed. Control of the microphone is needed
for situations such as pay-phone usage, where ambient noise picked up by the
mouthpiece often garbles the signal. For the use of voice carry-over, where
the person can speak but not hear, the user needs to be able to turn the
microphone on to speak and off to allow them to receive the TTY text replies.
2. A TTY can be connected to and used with any telecommunications product
supporting speech communication without requiring purchase of a special
adapter, and the user is able to intermix speech and clear TTY communication.
The most common approach today is to provide an RJ-11 jack. On very small
products, where there may not be room for this large jack, a miniature or
subminiature phone-jack wired as a "headset" jack (with both speaker and
microphone connections) could be used as an alternate approach. In either
case, a mechanism for turning the phone mouthpiece (microphone) on and off
would reduce garbling in noisy environments, while allowing the user to speak
into the microphone when desired (to conduct conversations with mixed voice
and TTY). For equipment that combines voice communications, displays,
keyboards and data communication functions, it is desirable to build in
direct TTY capability.
Paragraph (e)
TTY Signal Compatibility
1. Some telecommunications systems compress the audio signal in such a
manner that standard signals used by a TTY is distorted or attenuated
preventing successful TTY communication over the system. A TTY can be used
with any product providing voice communication function.
2. The de facto standard of domestic TTYs is Baudot which has been defined
in ITU-T Recommendation V.18. Although the V.18 standard has been adopted,
products are not yet available which meet its requirements.
3. This provision can be addressed by ensuring that the tones used can
travel through the phones compression circuits undistorted. It is even more
desirable to provide undistorted connectivity to the telephone line in the
frequency range of 390 Hz to 2300 Hz (ITU-T Recommendation V.18), as this
range covers all of the TTY protocols known throughout the world. Although it
may not be achievable with current technology, an alternate strategy might be
to recognize the tones, transmit them as codes, and resynthesize them at the
other end. In addition, it should be possible for individuals using TTYs to
conduct conversations with mixed voice and TTY, and to control all aspects of
the product and receive any messages generated by the product.
[FR Doc. 98-2414 Filed 2-2-98; 8:45 am]
BILLING CODE 8150-01-P
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