
   W3C 
   
Web Content Accessibility Guidelines 1.0

W3C Recommendation 5-May-1999

   This version:
          http://www.w3.org/TR/1999/WAI-WEBCONTENT-19990505
          (plain text, PostScript, PDF, gzip tar file of HTML,
          zip archive of HTML)
          
   Latest version:
          http://www.w3.org/TR/WAI-WEBCONTENT
          
   Previous version:
          http://www.w3.org/TR/1999/WAI-WEBCONTENT-19990324
          
   Editors:
          Wendy Chisholm, Trace R & D Center, University of
          Wisconsin -- Madison
          Gregg Vanderheiden, Trace R & D Center, University of
          Wisconsin -- Madison
          Ian Jacobs, W3C
          
   Copyright  1999 W3C (MIT, INRIA, Keio), All Rights Reserved.
   W3C liability, trademark, document use and software licensing
   rules apply.
     _________________________________________________________
   
Abstract

   These guidelines explain how to make Web content accessible to
   people with disabilities. The guidelines are intended for all
   Web content developers (page authors and site designers) and
   for developers of authoring tools. The primary goal of these
   guidelines is to promote accessibility. However, following
   them will also make Web content more available to all users,
   whatever user agent they are using (e.g., desktop browser,
   voice browser, mobile phone, automobile-based personal
   computer, etc.) or constraints they may be operating under
   (e.g., noisy surroundings, under- or over-illuminated rooms,
   in a hands-free environment, etc.). Following these guidelines
   will also help people find information on the Web more
   quickly. These guidelines do not discourage content developers
   from using images, video, etc., but rather explain how to make
   multimedia content more accessible to a wide audience.
   
   This is a reference document for accessibility principles and
   design ideas. Some of the strategies discussed in this
   document address certain Web internationalization and mobile
   access concerns. However, this document focuses on
   accessibility and does not fully address the related concerns
   of other W3C Activities. Please consult the W3C Mobile Access
   Activity home page and the W3C Internationalization Activity
   home page for more information.
   
   This document is meant to be stable and therefore does not
   provide specific information about browser support for
   different technologies as that information changes rapidly.
   Instead, the Web Accessibility Initiative (WAI) Web site
   provides such information (refer to [WAI-UA-SUPPORT]).
   
   This document includes an appendix that organizes all of the
   checkpoints by topic and priority. The checkpoints in the
   appendix link to their definitions in the current document.
   The topics identified in the appendix include images,
   multimedia, tables, frames, forms, and scripts. The appendix
   is available as either a tabular summary of checkpoints or as
   a simple list of checkpoints.
   
   A separate document, entitled "Techniques for Web Content
   Accessibility Guidelines 1.0" ([TECHNIQUES]), explains how to
   implement the checkpoints defined in the current document. The
   Techniques Document discusses each checkpoint in more detail
   and provides examples using the Hypertext Markup Language
   (HTML), Cascading Style Sheets (CSS), Synchronized Multimedia
   Integration Language (SMIL), and the Mathematical Markup
   Language (MathML). The Techniques Document also includes
   techniques for document validation and testing, and an index
   of HTML elements and attributes (and which techniques use
   them). The Techniques Document has been designed to track
   changes in technology and is expected to be updated more
   frequently than the current document. Note. Not all browsers
   or multimedia tools may support the features described in the
   guidelines. In particular, new features of HTML 4.0 or CSS 1
   or CSS 2 may not be supported.
   
   "Web Content Accessibility Guidelines 1.0" is part of a series
   of accessibility guidelines published by the Web Accessibility
   Initiative. The series also includes User Agent Accessibility
   Guidelines ([WAI-USERAGENT]) and Authoring Tool Accessibility
   Guidelines ([WAI-AUTOOLS]).
   
Status of this document

   This document has been reviewed by W3C Members and other
   interested parties and has been endorsed by the Director as a
   W3C Recommendation. It is a stable document and may be used as
   reference material or cited as a normative reference from
   another documents. W3C's role in making the Recommendation is
   to draw attention to the specification and to promote its
   widespread deployment. This enhances the functionality and
   universality of the Web.
   
   The English version of this specification is the only
   normative version. However, for translations in other
   languages see
   http://www.w3.org/WAI/GL/WAI-WEBCONTENT-TRANSLATIONS.
   
   The list of known errors in this document is available at
   http://www.w3.org/WAI/GL/WAI-WEBCONTENT-ERRATA. Please report
   errors in this document to wai-wcag-editor@w3.org.
   
   A list of current W3C Recommendations and other technical
   documents can be found at http://www.w3.org/TR.
   
   This document has been produced as part of the W3C Web
   Accessibility Initiative. The goal of the Web Content
   Guidelines Working Group is discussed in the Working Group
   charter.
   
Table of Contents

     * Abstract
     * Status of this document
     * 1. Introduction
     * 2. Themes of Accessible Design
          + 2.1 Ensuring Graceful Transformation
          + 2.2 Making Content Understandable and Navigable
     * 3. How the Guidelines are Organized
          + 3.1 Document conventions
     * 4. Priorities
     * 5. Conformance
     * 6. Web Content Accessibility Guidelines
          + 1. Provide equivalent alternatives to auditory and
            visual content.
          + 2. Don't rely on color alone.
          + 3. Use markup and style sheets and do so properly.
          + 4. Clarify natural language usage
          + 5. Create tables that transform gracefully.
          + 6. Ensure that pages featuring new technologies
            transform gracefully.
          + 7. Ensure user control of time-sensitive content
            changes.
          + 8. Ensure direct accessibility of embedded user
            interfaces.
          + 9. Design for device-independence.
          + 10. Use interim solutions.
          + 11. Use W3C technologies and guidelines.
          + 12. Provide context and orientation information.
          + 13. Provide clear navigation mechanisms.
          + 14. Ensure that documents are clear and simple.
     * Appendix A. -- Validation
     * Appendix B. -- Glossary 
     * Acknowledgments
     * References
       
   The appendix list of checkpoints is available as either a
   tabular summary of checkpoints or as a simple list of
   checkpoints.
     _________________________________________________________
   
1. Introduction

   For those unfamiliar with accessibility issues pertaining to
   Web page design, consider that many users may be operating in
   contexts very different from your own:
     * They may not be able to see, hear, move, or may not be
       able to process some types of information easily or at
       all.
     * They may have difficulty reading or comprehending text.
     * They may not have or be able to use a keyboard or mouse.
     * They may have a text-only screen, a small screen, or a
       slow Internet connection.
     * They may not speak or understand fluently the language in
       which the document is written.
     * They may be in a situation where their eyes, ears, or
       hands are busy or interfered with (e.g., driving to work,
       working in a loud environment, etc.).
     * They may have an early version of a browser, a different
       browser entirely, a voice browser, or a different
       operating system.
       
   Content developers must consider these different situations
   during page design. While there are several situations to
   consider, each accessible design choice generally benefits
   several disability groups at once and the Web community as a
   whole. For example, by using style sheets to control font
   styles and eliminating the FONT element, HTML authors will
   have more control over their pages, make those pages more
   accessible to people with low vision, and by sharing the style
   sheets, will often shorten page download times for all users.
   
   The guidelines discuss accessibility issues and provide
   accessible design solutions. They address typical scenarios
   (similar to the font style example) that may pose problems for
   users with certain disabilities. For example, the first
   guideline explains how content developers can make images
   accessible. Some users may not be able to see images, others
   may use text-based browsers that do not support images, while
   others may have turned off support for images (e.g., due to a
   slow Internet connection). The guidelines do not suggest
   avoiding images as a way to improve accessibility. Instead,
   they explain that providing a text equivalent of the image
   will make it accessible.
   
   How does a text equivalent make the image accessible? Both
   words in "text equivalent" are important:
     * Text content can be presented to the user as synthesized
       speech, braille, and visually-displayed text. Each of
       these three mechanisms uses a different sense -- ears for
       synthesized speech, tactile for braille, and eyes for
       visually-displayed text -- making the information
       accessible to groups representing a variety of sensory and
       other disabilities.
     * In order to be useful, the text must convey the same
       function or purpose as the image. For example, consider a
       text equivalent for a photographic image of the Earth as
       seen from outer space. If the purpose of the image is
       mostly that of decoration, then the text "Photograph of
       the Earth as seen from outer space" might fulfill the
       necessary function. If the purpose of the photograph is to
       illustrate specific information about world geography,
       then the text equivalent should convey that information.
       If the photograph has been designed to tell the user to
       select the image (e.g., by clicking on it) for information
       about the earth, equivalent text would be "Information
       about the Earth". Thus, if the text conveys the same
       function or purpose for the user with a disability as the
       image does for other users, then it can be considered a
       text equivalent.
       
   Note that, in addition to benefitting users with disabilities,
   text equivalents can help all users find pages more quickly,
   since search robots can use the text when indexing the pages.
   
   While Web content developers must provide text equivalents for
   images and other multimedia content, it is the responsibility
   of user agents (e.g., browsers and assistive technologies such
   as screen readers, braille displays, etc.) to present the
   information to the user.
   
   Non-text equivalents of text (e.g., icons, pre-recorded
   speech, or a video of a person translating the text into sign
   language) can make documents accessible to people who may have
   difficulty accessing written text, including many individuals
   with cognitive disabilities, learning disabilities, and
   deafness. Non-text equivalents of text can also be helpful to
   non-readers. An auditory description is an example of a
   non-text equivalent of visual information. An auditory
   description of a multimedia presentation's visual track
   benefits people who cannot see the visual information.
   
2. Themes of Accessible Design

   The guidelines address two general themes: ensuring graceful
   transformation, and making content understandable and
   navigable.
   
  2.1 Ensuring Graceful Transformation
  
   By following these guidelines, content developers can create
   pages that transform gracefully. Pages that transform
   gracefully remain accessible despite any of the constraints
   described in the introduction, including physical, sensory,
   and cognitive disabilities, work constraints, and
   technological barriers. Here are some keys to designing pages
   that transform gracefully:
     * Separate structure from presentation (refer to the
       difference between content, structure, and presentation).
     * Provide text (including text equivalents). Text can be
       rendered in ways that are available to almost all browsing
       devices and accessible to almost all users.
     * Create documents that work even if the user cannot see
       and/or hear. Provide information that serves the same
       purpose or function as audio or video in ways suited to
       alternate sensory channels as well. This does not mean
       creating a prerecorded audio version of an entire site to
       make it accessible to users who are blind. Users who are
       blind can use screen reader technology to render all text
       information in a page.
     * Create documents that do not rely on one type of hardware.
       Pages should be usable by people without mice, with small
       screens, low resolution screens, black and white screens,
       no screens, with only voice or text output, etc.
       
   The theme of graceful transformation is addressed primarily by
   guidelines 1 to 11.
   
  2.2 Making Content Understandable and Navigable
  
   Content developers should make content understandable and
   navigable. This includes not only making the language clear
   and simple, but also providing understandable mechanisms for
   navigating within and between pages. Providing navigation
   tools and orientation information in pages will maximize
   accessibility and usability. Not all users can make use of
   visual clues such as image maps, proportional scroll bars,
   side-by-side frames, or graphics that guide sighted users of
   graphical desktop browsers. Users also lose contextual
   information when they can only view a portion of a page,
   either because they are accessing the page one word at a time
   (speech synthesis or braille display), or one section at a
   time (small display, or a magnified display). Without
   orientation information, users may not be able to understand
   very large tables, lists, menus, etc.
   
   The theme of making content understandable and navigable is
   addressed primarily in guidelines 12 to 14.
   
3. How the Guidelines are Organized

   This document includes fourteen guidelines, or general
   principles of accessible design. Each guideline includes:
     * The guideline number.
     * The statement of the guideline.
     * Guideline navigation links. Three links allow navigation
       to the next guideline (right arrow icon), the previous
       guideline (left arrow icon), or the current guideline's
       position in the table of contents (up arrow icon).
     * The rationale behind the guideline and some groups of
       users who benefit from it.
     * A list of checkpoint definitions.
       
   The checkpoint definitions in each guideline explain how the
   guideline applies in typical content development scenarios.
   Each checkpoint definition includes:
     * The checkpoint number.
     * The statement of the checkpoint.
     * The priority of the checkpoint. Priority 1 checkpoints are
       highlighted through the use of style sheets.
     * Optional informative notes, clarifying examples, and cross
       references to related guidelines or checkpoints.
     * A link to a section of the Techniques Document
       ([TECHNIQUES]) where implementations and examples of the
       checkpoint are discussed.
       
   Each checkpoint is intended to be specific enough so that
   someone reviewing a page or site may verify that the
   checkpoint has been satisfied.
   
  3.1 Document conventions
  
   The following editorial conventions are used throughout this
   document:
     * Element names are in uppercase letters.
     * Attribute names are quoted in lowercase letters.
     * Links to definitions are highlighted through the use of
       style sheets.
       
4. Priorities

   Each checkpoint has a priority level assigned by the Working
   Group based on the checkpoint's impact on accessibility.
   
   [Priority 1]
          A Web content developer must satisfy this checkpoint.
          Otherwise, one or more groups will find it impossible
          to access information in the document. Satisfying this
          checkpoint is a basic requirement for some groups to be
          able to use Web documents.
          
   [Priority 2]
          A Web content developer should satisfy this checkpoint.
          Otherwise, one or more groups will find it difficult to
          access information in the document. Satisfying this
          checkpoint will remove significant barriers to
          accessing Web documents.
          
   [Priority 3]
          A Web content developer may address this checkpoint.
          Otherwise, one or more groups will find it somewhat
          difficult to access information in the document.
          Satisfying this checkpoint will improve access to Web
          documents.
          
   Some checkpoints specify a priority level that may change
   under certain (indicated) conditions.
   
5. Conformance

   This section defines three levels of conformance to this
   document:
     * Conformance Level "A": all Priority 1 checkpoints are
       satisfied;
     * Conformance Level "Double-A": all Priority 1 and 2
       checkpoints are satisfied;
     * Conformance Level "Triple-A": all Priority 1, 2, and 3
       checkpoints are satisfied;
       
   Note. Conformance levels are spelled out in text so they may
   be understood when rendered to speech.
   
   Claims of conformance to this document must use one of the
   following two forms.
   
   Form 1: Specify:
     * The guidelines title: "Web Content Accessibility
       Guidelines 1.0"
     * The guidelines URI:
       http://www.w3.org/TR/1999/WAI-WEBCONTENT-19990505
     * The conformance level satisfied: "A", "Double-A", or
       "Triple-A".
     * The scope covered by the claim (e.g., page, site, or
       defined portion of a site.).
       
   Example of Form 1:
   
     This page conforms to W3C's "Web Content Accessibility
     Guidelines 1.0", available at
     http://www.w3.org/TR/1999/WAI-WEBCONTENT-19990505, level
     Double-A.
     
   Form 2: Include, on each page claiming conformance, one of
   three icons provided by W3C and link the icon to the
   appropriate W3C explanation of the claim. Information about
   the icons and how to insert them in pages is available at
   [WCAG-ICONS].
     _________________________________________________________
   
6. Web Content Accessibility Guidelines

  Guideline 1. Provide equivalent alternatives to auditory and visual
  content.
  
   Next guideline: 2 Previous guideline: 14 Go to contents 
   
    Provide content that, when presented to the user, conveys
    essentially the same function or purpose as auditory or visual
    content.
    
   Although some people cannot use images, movies, sounds,
   applets, etc. directly, they may still use pages that include
   equivalent information to the visual or auditory content. The
   equivalent information must serve the same purpose as the
   visual or auditory content. Thus, a text equivalent for an
   image of an upward arrow that links to a table of contents
   could be "Go to table of contents". In some cases, an
   equivalent should also describe the appearance of visual
   content (e.g., for complex charts, billboards, or diagrams) or
   the sound of auditory content (e.g., for audio samples used in
   education).
   
   This guideline emphasizes the importance of providing text
   equivalents of non-text content (images, pre-recorded audio,
   video). The power of text equivalents lies in their capacity
   to be rendered in ways that are accessible to people from
   various disability groups using a variety of technologies.
   Text can be readily output to speech synthesizers and braille
   displays, and can be presented visually (in a variety of
   sizes) on computer displays and paper. Synthesized speech is
   critical for individuals who are blind and for many people
   with the reading difficulties that often accompany cognitive
   disabilities, learning disabilities, and deafness. Braille is
   essential for individuals who are both deaf and blind, as well
   as many individuals whose only sensory disability is
   blindness. Text displayed visually benefits users who are deaf
   as well as the majority of Web users.
   
   Providing non-text equivalents (e.g., pictures, videos, and
   pre-recorded audio) of text is also beneficial to some users,
   especially nonreaders or people who have difficulty reading.
   In movies or visual presentations, visual action such as body
   language or other visual cues may not be accompanied by enough
   audio information to convey the same information. Unless
   verbal descriptions of this visual information are provided,
   people who cannot see (or look at) the visual content will not
   be able to perceive it.
   
    Checkpoints:
    
   1.1 Provide a text equivalent for every non-text element
          (e.g., via "alt", "longdesc", or in element content).
          This includes: images, graphical representations of
          text (including symbols), image map regions, animations
          (e.g., animated GIFs), applets and programmatic
          objects, ascii art, frames, scripts, images used as
          list bullets, spacers, graphical buttons, sounds
          (played with or without user interaction), stand-alone
          audio files, audio tracks of video, and video.
          [Priority 1]
          For example, in HTML:
          
          + Use "alt" for the IMG, INPUT, and APPLET elements, or
            provide a text equivalent in the content of the
            OBJECT and APPLET elements.
          + For complex content (e.g., a chart) where the "alt"
            text does not provide a complete text equivalent,
            provide an additional description using, for example,
            "longdesc" with IMG or FRAME, a link inside an OBJECT
            element, or a description link.
          + For image maps, either use the "alt" attribute with
            AREA, or use the MAP element with A elements (and
            other text) as content.
            
          Refer also to checkpoint 9.1 and checkpoint 13.10.
          
          Techniques for checkpoint 1.1
          
   1.2 Provide redundant text links for each active region of a
          server-side image map. [Priority 1]
          Refer also to checkpoint 1.5 and checkpoint 9.1.
          Techniques for checkpoint 1.2
          
   1.3 Until user agents can automatically read aloud the text
          equivalent of a visual track, provide an auditory
          description of the important information of the visual
          track of a multimedia presentation. [Priority 1]
          Synchronize the auditory description with the audio
          track as per checkpoint 1.4. Refer to checkpoint 1.1
          for information about textual equivalents for visual
          information.
          Techniques for checkpoint 1.3
          
   1.4 For any time-based multimedia presentation (e.g., a movie
          or animation), synchronize equivalent alternatives
          (e.g., captions or auditory descriptions of the visual
          track) with the presentation. [Priority 1]
          Techniques for checkpoint 1.4
          
   1.5 Until user agents render text equivalents for client-side
          image map links, provide redundant text links for each
          active region of a client-side image map. [Priority 3]
          Refer also to checkpoint 1.2 and checkpoint 9.1.
          Techniques for checkpoint 1.5
          
  Guideline 2. Don't rely on color alone.
  
   Next guideline: 3 Previous guideline: 1 Go to contents 
   
    Ensure that text and graphics are understandable when viewed
    without color.
    
   If color alone is used to convey information, people who
   cannot differentiate between certain colors and users with
   devices that have non-color or non-visual displays will not
   receive the information. When foreground and background colors
   are too close to the same hue, they may not provide sufficient
   contrast when viewed using monochrome displays or by people
   with different types of color deficits.
   
    Checkpoints:
    
   2.1 Ensure that all information conveyed with color is also
          available without color, for example from context or
          markup. [Priority 1]
          Techniques for checkpoint 2.1
          
   2.2 Ensure that foreground and background color combinations
          provide sufficient contrast when viewed by someone
          having color deficits or when viewed on a black and
          white screen. [Priority 2 for images, Priority 3 for
          text].
          Techniques for checkpoint 2.2
          
  Guideline 3. Use markup and style sheets and do so properly.
  
   Next guideline: 4 Previous guideline: 2 Go to contents 
   
    Mark up documents with the proper structural elements. Control
    presentation with style sheets rather than with presentation
    elements and attributes.
    
   Using markup improperly -- not according to specification --
   hinders accessibility. Misusing markup for a presentation
   effect (e.g., using a table for layout or a header to change
   the font size) makes it difficult for users with specialized
   software to understand the organization of the page or to
   navigate through it. Furthermore, using presentation markup
   rather than structural markup to convey structure (e.g.,
   constructing what looks like a table of data with an HTML PRE
   element) makes it difficult to render a page intelligibly to
   other devices (refer to the description of difference between
   content, structure, and presentation).
   
   Content developers may be tempted to use (or misuse)
   constructs that achieve a desired formatting effect on older
   browsers. They must be aware that these practices cause
   accessibility problems and must consider whether the
   formatting effect is so critical as to warrant making the
   document inaccessible to some users.
   
   At the other extreme, content developers must not sacrifice
   appropriate markup because a certain browser or assistive
   technology does not process it correctly. For example, it is
   appropriate to use the TABLE element in HTML to mark up
   tabular information even though some older screen readers may
   not handle side-by-side text correctly (refer to checkpoint
   10.3). Using TABLE correctly and creating tables that
   transform gracefully (refer to guideline 5) makes it possible
   for software to render tables other than as two-dimensional
   grids.
   
    Checkpoints:
    
   3.1 When an appropriate markup language exists, use markup
          rather than images to convey information. [Priority 2]
          For example, use MathML to mark up mathematical
          equations, and style sheets to format text and control
          layout. Also, avoid using images to represent text --
          use text and style sheets instead. Refer also to
          guideline 6 and guideline 11.
          Techniques for checkpoint 3.1
          
   3.2 Create documents that validate to published formal
          grammars. [Priority 2]
          For example, include a document type declaration at the
          beginning of a document that refers to a published DTD
          (e.g., the strict HTML 4.0 DTD).
          Techniques for checkpoint 3.2
          
   3.3 Use style sheets to control layout and presentation.
          [Priority 2]
          For example, use the CSS 'font' property instead of the
          HTML FONT element to control font styles.
          Techniques for checkpoint 3.3
          
   3.4 Use relative rather than absolute units in markup language
          attribute values and style sheet property values.
          [Priority 2]
          For example, in CSS, use 'em' or percentage lengths
          rather than 'pt' or 'cm', which are absolute units. If
          absolute units are used, validate that the rendered
          content is usable (refer to the section on validation).
          Techniques for checkpoint 3.4
          
   3.5 Use header elements to convey document structure and use
          them according to specification. [Priority 2]
          For example, in HTML, use H2 to indicate a subsection
          of H1. Do not use headers for font effects.
          Techniques for checkpoint 3.5
          
   3.6 Mark up lists and list items properly. [Priority 2]
          For example, in HTML, nest OL, UL, and DL lists
          properly.
          Techniques for checkpoint 3.6
          
   3.7 Mark up quotations. Do not use quotation markup for
          formatting effects such as indentation. [Priority 2]
          For example, in HTML, use the Q and BLOCKQUOTE elements
          to markup short and longer quotations, respectively.
          Techniques for checkpoint 3.7
          
  Guideline 4. Clarify natural language usage
  
   Next guideline: 5 Previous guideline: 3 Go to contents 
   
    Use markup that facilitates pronunciation or interpretation of
    abbreviated or foreign text.
    
   When content developers mark up natural language changes in a
   document, speech synthesizers and braille devices can
   automatically switch to the new language, making the document
   more accessible to multilingual users. Content developers
   should identify the predominant natural language of a
   document's content (through markup or HTTP headers). Content
   developers should also provide expansions of abbreviations and
   acronyms.
   
   In addition to helping assistive technologies, natural
   language markup allows search engines to find key words and
   identify documents in a desired language. Natural language
   markup also improves readability of the Web for all people,
   including those with learning disabilities, cognitive
   disabilities, or people who are deaf.
   
   When abbreviations and natural language changes are not
   identified, they may be indecipherable when machine-spoken or
   brailled.
   
    Checkpoints:
    
   4.1 Clearly identify changes in the natural language of a
          document's text and any text equivalents (e.g.,
          captions). [Priority 1]
          For example, in HTML use the "lang" attribute. In XML,
          use "xml:lang".
          Techniques for checkpoint 4.1
          
   4.2 Specify the expansion of each abbreviation or acronym in a
          document where it first occurs. [Priority 3]
          For example, in HTML, use the "title" attribute of the
          ABBR and ACRONYM elements. Providing the expansion in
          the main body of the document also helps document
          usability.
          Techniques for checkpoint 4.2
          
   4.3 Identify the primary natural language of a document.
          [Priority 3]
          For example, in HTML set the "lang" attribute on the
          HTML element. In XML, use "xml:lang". Server operators
          should configure servers to take advantage of HTTP
          content negotiation mechanisms ([RFC2068], section
          14.13) so that clients can automatically retrieve
          documents of the preferred language.
          Techniques for checkpoint 4.3
          
  Guideline 5. Create tables that transform gracefully.
  
   Next guideline: 6 Previous guideline: 4 Go to contents 
   
    Ensure that tables have necessary markup to be transformed by
    accessible browsers and other user agents.
    
   Tables should be used to mark up truly tabular information
   ("data tables"). Content developers should avoid using them to
   lay out pages ("layout tables"). Tables for any use also
   present special problems to users of screen readers (refer to
   checkpoint 10.3).
   
   Some user agents allow users to navigate among table cells and
   access header and other table cell information. Unless
   marked-up properly, these tables will not provide user agents
   with the appropriate information. (Refer also to guideline 3.)
   
   The following checkpoints will directly benefit people who
   access a table through auditory means (e.g., a screen reader
   or an automobile-based personal computer) or who view only a
   portion of the page at a time (e.g., users with blindness or
   low vision using speech output or a braille display, or other
   users of devices with small displays, etc.).
   
    Checkpoints:
    
   5.1 For data tables, identify row and column headers.
          [Priority 1]
          For example, in HTML, use TD to identify data cells and
          TH to identify headers.
          Techniques for checkpoint 5.1
          
   5.2 For data tables that have two or more logical levels of
          row or column headers, use markup to associate data
          cells and header cells. [Priority 1]
          For example, in HTML, use THEAD, TFOOT, and TBODY to
          group rows, COL and COLGROUP to group columns, and the
          "axis", "scope", and "headers" attributes, to describe
          more complex relationships among data.
          Techniques for checkpoint 5.2
          
   5.3 Do not use tables for layout unless the table makes sense
          when linearized. Otherwise, if the table does not make
          sense, provide an alternative equivalent (which may be
          a linearized version). [Priority 2]
          Note. Once user agents support style sheet positioning,
          tables should not be used for layout. Refer also to
          checkpoint 3.3.
          Techniques for checkpoint 5.3
          
   5.4 If a table is used for layout, do not use any structural
          markup for the purpose of visual formatting.
          [Priority 2]
          For example, in HTML do not use the TH element to cause
          the content of a (non-table header) cell to be
          displayed centered and in bold.
          Techniques for checkpoint 5.4
          
   5.5 Provide summaries for tables. [Priority 3]
          For example, in HTML, use the "summary" attribute of
          the TABLE element.
          Techniques for checkpoint 5.5
          
   5.6 Provide abbreviations for header labels. [Priority 3]
          For example, in HTML, use the "abbr" attribute on the
          TH element.
          Techniques for checkpoint 5.6
          
   Refer also to checkpoint 10.3.
   
  Guideline 6. Ensure that pages featuring new technologies transform
  gracefully.
  
   Next guideline: 7 Previous guideline: 5 Go to contents 
   
    Ensure that pages are accessible even when newer technologies are
    not supported or are turned off.
    
   Although content developers are encouraged to use new
   technologies that solve problems raised by existing
   technologies, they should know how to make their pages still
   work with older browsers and people who choose to turn off
   features.
   
    Checkpoints:
    
   6.1 Organize documents so they may be read without style
          sheets. For example, when an HTML document is rendered
          without associated style sheets, it must still be
          possible to read the document. [Priority 1]
          When content is organized logically, it will be
          rendered in a meaningful order when style sheets are
          turned off or not supported.
          Techniques for checkpoint 6.1
          
   6.2 Ensure that equivalents for dynamic content are updated
          when the dynamic content changes. [Priority 1]
          Techniques for checkpoint 6.2
          
   6.3 Ensure that pages are usable when scripts, applets, or
          other programmatic objects are turned off or not
          supported. If this is not possible, provide equivalent
          information on an alternative accessible page.
          [Priority 1]
          For example, ensure that links that trigger scripts
          work when scripts are turned off or not supported
          (e.g., do not use "javascript:" as the link target). If
          it is not possible to make the page usable without
          scripts, provide a text equivalent with the NOSCRIPT
          element, or use a server-side script instead of a
          client-side script, or provide an alternative
          accessible page as per checkpoint 11.4. Refer also to
          guideline 1.
          Techniques for checkpoint 6.3
          
   6.4 For scripts and applets, ensure that event handlers are
          input device-independent. [Priority 2]
          Refer to the definition of device independence.
          Techniques for checkpoint 6.4
          
   6.5 Ensure that dynamic content is accessible or provide an
          alternative presentation or page. [Priority 2]
          For example, in HTML, use NOFRAMES at the end of each
          frameset. For some applications, server-side scripts
          may be more accessible than client-side scripts.
          Techniques for checkpoint 6.5
          
   Refer also to checkpoint 11.4.
   
  Guideline 7. Ensure user control of time-sensitive content changes.
  
   Next guideline: 8 Previous guideline: 6 Go to contents 
   
    Ensure that moving, blinking, scrolling, or auto-updating objects
    or pages may be paused or stopped.
    
   Some people with cognitive or visual disabilities are unable
   to read moving text quickly enough or at all. Movement can
   also cause such a distraction that the rest of the page
   becomes unreadable for people with cognitive disabilities.
   Screen readers are unable to read moving text. People with
   physical disabilities might not be able to move quickly or
   accurately enough to interact with moving objects.
   
   Note. All of the following checkpoints involve some content
   developer responsibility until user agents provide adequate
   feature control mechanisms.
   
    Checkpoints:
    
   7.1 Until user agents allow users to control flickering, avoid
          causing the screen to flicker. [Priority 1]
          Note. People with photosensitive epilepsy can have
          seizures triggered by flickering or flashing in the 4
          to 59 flashes per second (Hertz) range with a peak
          sensitivity at 20 flashes per second as well as quick
          changes from dark to light (like strobe lights).
          Techniques for checkpoint 7.1
          
   7.2 Until user agents allow users to control blinking, avoid
          causing content to blink (i.e., change presentation at
          a regular rate, such as turning on and off).
          [Priority 2]
          Techniques for checkpoint 7.2
          
   7.3 Until user agents allow users to freeze moving content,
          avoid movement in pages. [Priority 2]
          When a page includes moving content, provide a
          mechanism within a script or applet to allow users to
          freeze motion or updates. Using style sheets with
          scripting to create movement allows users to turn off
          or override the effect more easily. Refer also to
          guideline 8.
          Techniques for checkpoint 7.3
          
   7.4 Until user agents provide the ability to stop the refresh,
          do not create periodically auto-refreshing pages.
          [Priority 2]
          For example, in HTML, don't cause pages to auto-refresh
          with "HTTP-EQUIV=refresh" until user agents allow users
          to turn off the feature.
          Techniques for checkpoint 7.4
          
   7.5 Until user agents provide the ability to stop
          auto-redirect, do not use markup to redirect pages
          automatically. Instead, configure the server to perform
          redirects. [Priority 2]
          Techniques for checkpoint 7.5
          
   Note. The BLINK and MARQUEE elements are not defined in any
   W3C HTML specification and should not be used. Refer also to
   guideline 11.
   
  Guideline 8. Ensure direct accessibility of embedded user interfaces.
  
   Next guideline: 9 Previous guideline: 7 Go to contents 
   
    Ensure that the user interface follows principles of accessible
    design: device-independent access to functionality, keyboard
    operability, self-voicing, etc.
    
   When an embedded object has its "own interface", the interface
   -- like the interface to the browser itself -- must be
   accessible. If the interface of the embedded object cannot be
   made accessible, an alternative accessible solution must be
   provided.
   
   Note. For information about accessible interfaces, please
   consult the User Agent Accessibility Guidelines
   ([WAI-USERAGENT]) and the Authoring Tool Accessibility
   Guidelines ([WAI-AUTOOL]).
   
    Checkpoint:
    
   8.1 Make programmatic elements such as scripts and applets
          directly accessible or compatible with assistive
          technologies [Priority 1 if functionality is important
          and not presented elsewhere, otherwise Priority 2.]
          Refer also to guideline 6.
          Techniques for checkpoint 8.1
          
  Guideline 9. Design for device-independence.
  
   Next guideline: 10 Previous guideline: 8 Go to contents 
   
    Use features that enable activation of page elements via a variety
    of input devices.
    
   Device-independent access means that the user may interact
   with the user agent or document with a preferred input (or
   output) device -- mouse, keyboard, voice, head wand, or other.
   If, for example, a form control can only be activated with a
   mouse or other pointing device, someone who is using the page
   without sight, with voice input, or with a keyboard or who is
   using some other non-pointing input device will not be able to
   use the form.
   
   Note. Providing text equivalents for image maps or images used
   as links makes it possible for users to interact with them
   without a pointing device. Refer also to guideline 1.
   
   Generally, pages that allow keyboard interaction are also
   accessible through speech input or a command line interface.
   
    Checkpoints:
    
   9.1 Provide client-side image maps instead of server-side
          image maps except where the regions cannot be defined
          with an available geometric shape. [Priority 1]
          Refer also to checkpoint 1.1, checkpoint 1.2, and
          checkpoint 1.5.
          Techniques for checkpoint 9.1
          
   9.2 Ensure that any element that has its own interface can be
          operated in a device-independent manner. [Priority 2]
          Refer to the definition of device independence.
          Refer also to guideline 8.
          Techniques for checkpoint 9.2
          
   9.3 For scripts, specify logical event handlers rather than
          device-dependent event handlers. [Priority 2]
          Techniques for checkpoint 9.3
          
   9.4 Create a logical tab order through links, form controls,
          and objects. [Priority 3]
          For example, in HTML, specify tab order via the
          "tabindex" attribute or ensure a logical page design.
          Techniques for checkpoint 9.4
          
   9.5 Provide keyboard shortcuts to important links (including
          those in client-side image maps), form controls, and
          groups of form controls. [Priority 3]
          For example, in HTML, specify shortcuts via the
          "accesskey" attribute.
          Techniques for checkpoint 9.5
          
  Guideline 10. Use interim solutions.
  
   Next guideline: 11 Previous guideline: 9 Go to contents 
   
    Use interim accessibility solutions so that assistive technologies
    and older browsers will operate correctly.
    
   For example, older browsers do not allow users to navigate to
   empty edit boxes. Older screen readers read lists of
   consecutive links as one link. These active elements are
   therefore difficult or impossible to access. Also, changing
   the current window or popping up new windows can be very
   disorienting to users who cannot see that this has happened.
   
   Note. The following checkpoints apply until user agents
   (including assistive technologies) address these issues. These
   checkpoints are classified as "interim", meaning that the Web
   Content Guidelines Working Group considers them to be valid
   and necessary to Web accessibility as of the publication of
   this document. However, the Working Group does not expect
   these checkpoints to be necessary in the future, once Web
   technologies have incorporated anticipated features or
   capabilities.
   
    Checkpoints:
    
   10.1 Until user agents allow users to turn off spawned
          windows, do not cause pop-ups or other windows to
          appear and do not change the current window without
          informing the user. [Priority 2]
          For example, in HTML, avoid using a frame whose target
          is a new window.
          Techniques for checkpoint 10.1
          
   10.2 Until user agents support explicit associations between
          labels and form controls, for all form controls with
          implicitly associated labels, ensure that the label is
          properly positioned. [Priority 2]
          The label must immediately precede its control on the
          same line (allowing more than one control/label per
          line) or be in the line preceding the control (with
          only one label and one control per line). Refer also to
          checkpoint 12.4.
          Techniques for checkpoint 10.2
          
   10.3 Until user agents (including assistive technologies)
          render side-by-side text correctly, provide a linear
          text alternative (on the current page or some other)
          for all tables that lay out text in parallel,
          word-wrapped columns. [Priority 3]
          Note. Please consult the definition of linearized
          table. This checkpoint benefits people with user agents
          (such as some screen readers) that are unable to handle
          blocks of text presented side-by-side; the checkpoint
          should not discourage content developers from using
          tables to represent tabular information.
          Techniques for checkpoint 10.3
          
   10.4 Until user agents handle empty controls correctly,
          include default, place-holding characters in edit boxes
          and text areas. [Priority 3]
          For example, in HTML, do this for TEXTAREA and INPUT.
          Techniques for checkpoint 10.4
          
   10.5 Until user agents (including assistive technologies)
          render adjacent links distinctly, include non-link,
          printable characters (surrounded by spaces) between
          adjacent links. [Priority 3]
          Techniques for checkpoint 10.5
          
  Guideline 11. Use W3C technologies and guidelines.
  
   Next guideline: 12 Previous guideline: 10 Go to contents 
   
    Use W3C technologies (according to specification) and follow
    accessibility guidelines. Where it is not possible to use a W3C
    technology, or doing so results in material that does not transform
    gracefully, provide an alternative version of the content that is
    accessible.
    
   The current guidelines recommend W3C technologies (e.g., HTML,
   CSS, etc.) for several reasons:
     * W3C technologies include "built-in" accessibility
       features.
     * W3C specifications undergo early review to ensure that
       accessibility issues are considered during the design
       phase.
     * W3C specifications are developed in an open, industry
       consensus process.
       
   Many non-W3C formats (e.g., PDF, Shockwave, etc.) require
   viewing with either plug-ins or stand-alone applications.
   Often, these formats cannot be viewed or navigated with
   standard user agents (including assistive technologies).
   Avoiding non-W3C and non-standard features (proprietary
   elements, attributes, properties, and extensions) will tend to
   make pages more accessible to more people using a wider
   variety of hardware and software. When inaccessible
   technologies (proprietary or not) must be used, equivalent
   accessible pages must be provided.
   
   Even when W3C technologies are used, they must be used in
   accordance with accessibility guidelines. When using new
   technologies, ensure that they transform gracefully (Refer
   also to guideline 6.).
   
   Note. Converting documents (from PDF, PostScript, RTF, etc.)
   to W3C markup languages (HTML, XML) does not always create an
   accessible document. Therefore, validate each page for
   accessibility and usability after the conversion process
   (refer to the section on validation). If a page does not
   readily convert, either revise the page until its original
   representation converts appropriately or provide an HTML or
   plain text version.
   
    Checkpoints:
    
   11.1 Use W3C technologies when they are available and
          appropriate for a task and use the latest versions when
          supported. [Priority 2]
          Refer to the list of references for information about
          where to find the latest W3C specifications and
          [WAI-UA-SUPPORT] for information about user agent
          support for W3C technologies.
          Techniques for checkpoint 11.1
          
   11.2 Avoid deprecated features of W3C technologies.
          [Priority 2]
          For example, in HTML, don't use the deprecated FONT
          element; use style sheets instead (e.g., the 'font'
          property in CSS).
          Techniques for checkpoint 11.2
          
   11.3 Provide information so that users may receive documents
          according to their preferences (e.g., language, content
          type, etc.) [Priority 3]
          Note. Use content negotiation where possible.
          Techniques for checkpoint 11.3
          
   11.4 If, after best efforts, you cannot create an accessible
          page, provide a link to an alternative page that uses
          W3C technologies, is accessible, has equivalent
          information (or functionality), and is updated as often
          as the inaccessible (original) page. [Priority 1]
          Techniques for checkpoint 11.4
          
   Note. Content developers should only resort to alternative
   pages when other solutions fail because alternative pages are
   generally updated less often than "primary" pages. An
   out-of-date page may be as frustrating as one that is
   inaccessible since, in both cases, the information presented
   on the original page is unavailable. Automatically generating
   alternative pages may lead to more frequent updates, but
   content developers must still be careful to ensure that
   generated pages always make sense, and that users are able to
   navigate a site by following links on primary pages,
   alternative pages, or both. Before resorting to an alternative
   page, reconsider the design of the original page; making it
   accessible is likely to improve it for all users.
   
  Guideline 12. Provide context and orientation information.
  
   Next guideline: 13 Previous guideline: 11 Go to contents 
   
    Provide context and orientation information to help users
    understand complex pages or elements.
    
   Grouping elements and providing contextual information about
   the relationships between elements can be useful for all
   users. Complex relationships between parts of a page may be
   difficult for people with cognitive disabilities and people
   with visual disabilities to interpret.
   
    Checkpoints:
    
   12.1 Title each frame to facilitate frame identification and
          navigation. [Priority 1]
          For example, in HTML use the "title" attribute on FRAME
          elements.
          Techniques for checkpoint 12.1
          
   12.2 Describe the purpose of frames and how frames relate to
          each other if it is not obvious by frame titles alone.
          [Priority 2]
          For example, in HTML, use "longdesc," or a description
          link.
          Techniques for checkpoint 12.2
          
   12.3 Divide large blocks of information into more manageable
          groups where natural and appropriate. [Priority 2]
          For example, in HTML, use OPTGROUP to group OPTION
          elements inside a SELECT; group form controls with
          FIELDSET and LEGEND; use nested lists where
          appropriate; use headings to structure documents, etc.
          Refer also to guideline 3.
          Techniques for checkpoint 12.3
          
   12.4 Associate labels explicitly with their controls.
          [Priority 2]
          For example, in HTML use LABEL and its "for" attribute.
          Techniques for checkpoint 12.4
          
  Guideline 13. Provide clear navigation mechanisms.
  
   Next guideline: 14 Previous guideline: 12 Go to contents 
   
    Provide clear and consistent navigation mechanisms -- orientation
    information, navigation bars, a site map, etc. -- to increase the
    likelihood that a person will find what they are looking for at a
    site.
    
   Clear and consistent navigation mechanisms are important to
   people with cognitive disabilities or blindness, and benefit
   all users.
   
    Checkpoints:
    
   13.1 Clearly identify the target of each link. [Priority 2]
          Link text should be meaningful enough to make sense
          when read out of context -- either on its own or as
          part of a sequence of links. Link text should also be
          terse.
          For example, in HTML, write "Information about version
          4.3" instead of "click here". In addition to clear link
          text, content developers may further clarify the target
          of a link with an informative link title (e.g., in
          HTML, the "title" attribute).
          Techniques for checkpoint 13.1
          
   13.2 Provide metadata to add semantic information to pages and
          sites. [Priority 2]
          For example, use RDF ([RDF]) to indicate the document's
          author, the type of content, etc.
          Note. Some HTML user agents can build navigation tools
          from document relations described by the HTML LINK
          element and "rel" or "rev" attributes (e.g.,
          rel="next", rel="previous", rel="index", etc.). Refer
          also to checkpoint 13.5.
          Techniques for checkpoint 13.2
          
   13.3 Provide information about the general layout of a site
          (e.g., a site map or table of contents). [Priority 2]
          In describing site layout, highlight and explain
          available accessibility features.
          Techniques for checkpoint 13.3
          
   13.4 Use navigation mechanisms in a consistent manner.
          [Priority 2]
          Techniques for checkpoint 13.4
          
   13.5 Provide navigation bars to highlight and give access to
          the navigation mechanism. [Priority 3]
          Techniques for checkpoint 13.5
          
   13.6 Group related links, identify the group (for user
          agents), and, until user agents do so, provide a way to
          bypass the group. [Priority 3]
          Techniques for checkpoint 13.6
          
   13.7 If search functions are provided, enable different types
          of searches for different skill levels and preferences.
          [Priority 3]
          Techniques for checkpoint 13.7
          
   13.8 Place distinguishing information at the beginning of
          headings, paragraphs, lists, etc. [Priority 3]
          Note. This is commonly referred to as "front-loading"
          and is especially helpful for people accessing
          information with serial devices such as speech
          synthesizers.
          Techniques for checkpoint 13.8
          
   13.9 Provide information about document collections (i.e.,
          documents comprising multiple pages.). [Priority 3]
          For example, in HTML specify document collections with
          the LINK element and the "rel" and "rev" attributes.
          Another way to create a collection is by building an
          archive (e.g., with zip, tar and gzip, stuffit, etc.)
          of the multiple pages.
          Note. The performance improvement gained by offline
          processing can make browsing much less expensive for
          people with disabilities who may be browsing slowly.
          Techniques for checkpoint 13.9
          
   13.10 Provide a means to skip over multi-line ASCII art.
          [Priority 3]
          Refer to checkpoint 1.1 and the example of ascii art in
          the glossary.
          Techniques for checkpoint 13.10
          
  Guideline 14. Ensure that documents are clear and simple.
  
   Next guideline: 1 Previous guideline: 13 Go to contents 
   
    Ensure that documents are clear and simple so they may be more
    easily understood.
    
   Consistent page layout, recognizable graphics, and easy to
   understand language benefit all users. In particular, they
   help people with cognitive disabilities or who have difficulty
   reading. (However, ensure that images have text equivalents
   for people who are blind, have low vision, or for any user who
   cannot or has chosen not to view graphics. Refer also to
   guideline 1.)
   
   Using clear and simple language promotes effective
   communication. Access to written information can be difficult
   for people who have cognitive or learning disabilities. Using
   clear and simple language also benefits people whose first
   language differs from your own, including those people who
   communicate primarily in sign language.
   
    Checkpoints:
    
   14.1 Use the clearest and simplest language appropriate for a
          site's content. [Priority 1]
          Techniques for checkpoint 14.1
          
   14.2 Supplement text with graphic or auditory presentations
          where they will facilitate comprehension of the page.
          [Priority 3]
          Refer also to guideline 1.
          Techniques for checkpoint 14.2
          
   14.3 Create a style of presentation that is consistent across
          pages. [Priority 3]
          Techniques for checkpoint 14.3
     _________________________________________________________
   
Appendix A. -- Validation

   Validate accessibility with automatic tools and human review.
   Automated methods are generally rapid and convenient but
   cannot identify all accessibility issues. Human review can
   help ensure clarity of language and ease of navigation.
   
   Begin using validation methods at the earliest stages of
   development. Accessibility issues identified early are easier
   to correct and avoid.
   
   Following are some important validation methods, discussed in
   more detail in the section on validation in the Techniques
   Document.
    1. Use an automated accessibility tool and browser validation
       tool. Please note that software tools do not address all
       accessibility issues, such as the meaningfulness of link
       text, the applicability of a text equivalent, etc.
    2. Validate syntax (e.g., HTML, XML, etc.).
    3. Validate style sheets (e.g., CSS).
    4. Use a text-only browser or emulator.
    5. Use multiple graphic browsers, with:
          + sounds and graphics loaded,
          + graphics not loaded,
          + sounds not loaded,
          + no mouse,
          + frames, scripts, style sheets, and applets not loaded
    6. Use several browsers, old and new.
    7. Use a self-voicing browser, a screen reader, magnification
       software, a small display, etc.
    8. Use spell and grammar checkers. A person reading a page
       with a speech synthesizer may not be able to decipher the
       synthesizer's best guess for a word with a spelling error.
       Eliminating grammar problems increases comprehension.
    9. Review the document for clarity and simplicity.
       Readability statistics, such as those generated by some
       word processors may be useful indicators of clarity and
       simplicity. Better still, ask an experienced (human)
       editor to review written content for clarity. Editors can
       also improve the usability of documents by identifying
       potentially sensitive cultural issues that might arise due
       to language or icon usage.
   10. Invite people with disabilities to review documents.
       Expert and novice users with disabilities will provide
       valuable feedback about accessibility or usability
       problems and their severity.
     _________________________________________________________
   
Appendix B. -- Glossary

   Accessible
          Content is accessible when it may be used by someone
          with a disability.
          
   Applet
          A program inserted into a Web page.
          
   Assistive technology
          Software or hardware that has been specifically
          designed to assist people with disabilities in carrying
          out daily activities. Assistive technology includes
          wheelchairs, reading machines, devices for grasping,
          etc. In the area of Web Accessibility, common
          software-based assistive technologies include screen
          readers, screen magnifiers, speech synthesizers, and
          voice input software that operate in conjunction with
          graphical desktop browsers (among other user agents).
          Hardware assistive technologies include alternative
          keyboards and pointing devices.
          
   ASCII art
          ASCII art refers to text characters and symbols that
          are combined to create an image. For example ";-)" is
          the smiley emoticon. The following is an ascii figure
          showing the relationship between flash frequency and
          photoconvulsive response in patients with eyes open and
          closed [skip over ascii figure or consult a description
          of chart]:
          

  %   __ __ __ __ __ __ __ __ __ __ __ __ __ __
100 |             *                             |
 90 |                *  *                       |
 80 |          *           *                    |
 70 |             @           *                 |
 60 |          @                 *              |
 50 |       *        @              *           |
 40 |                   @              *        |
 30 |    *  @              @  @           *     |
 20 |                                           |
 10 |    @                       @  @  @  @     |
      0  5 10 15 20 25 30 35 40 45 50 55 60 65 70
      Flash frequency (Hertz)

   Authoring tool
          HTML editors, document conversion tools, tools that
          generate Web content from databases are all authoring
          tools. Refer to the "Authoring Tool Accessibility
          Guidelines" ([WAI-AUTOOLS]) for information about
          developing accessible tools.
          
   Backward compatible
          Design that continues to work with earlier versions of
          a language, program, etc.
          
   Braille
          Braille uses six raised dots in different patterns to
          represent letters and numbers to be read by people who
          are blind with their fingertips. The word "Accessible"
          in braille follows:
          Accessible
          A braille display, commonly referred to as a "dynamic
          braille display," raises or lowers dot patterns on
          command from an electronic device, usually a computer.
          The result is a line of braille that can change from
          moment to moment. Current dynamic braille displays
          range in size from one cell (six or eight dots) to an
          eighty-cell line, most having between twelve and twenty
          cells per line.
          
   Content developer
          Someone who authors Web pages or designs Web sites.
          
   Deprecated 
          A deprecated element or attribute is one that has been
          outdated by newer constructs. Deprecated elements may
          become obsolete in future versions of HTML. The index
          of HTML elements and attributes in the Techniques
          Document indicates which elements and attributes are
          deprecated in HTML 4.0.
          Authors should avoid using deprecated elements and
          attributes. User agents should continue to support for
          reasons of backward compatibility.
          
   Device independent
          Users must be able to interact with a user agent (and
          the document it renders) using the supported input and
          output devices of their choice and according to their
          needs. Input devices may include pointing devices,
          keyboards, braille devices, head wands, microphones,
          and others. Output devices may include monitors, speech
          synthesizers, and braille devices.
          Please note that "device-independent support" does not
          mean that user agents must support every input or
          output device. User agents should offer redundant input
          and output mechanisms for those devices that are
          supported. For example, if a user agent supports
          keyboard and mouse input, users should be able to
          interact with all features using either the keyboard or
          the mouse.
          
   Document Content, Structure, and Presentation
          The content of a document refers to what it says to the
          user through natural language, images, sounds, movies,
          animations, etc. The structure of a document is how it
          is organized logically (e.g., by chapter, with an
          introduction and table of contents, etc.). An element
          (e.g., P, STRONG, BLOCKQUOTE in HTML) that specifies
          document structure is called a structural element. The
          presentation of a document is how the document is
          rendered (e.g., as print, as a two-dimensional
          graphical presentation, as an text-only presentation,
          as synthesized speech, as braille, etc.) An element
          that specifies document presentation (e.g., B, FONT,
          CENTER) is called a presentation element.
          Consider a document header, for example. The content of
          the header is what the header says (e.g., "Sailboats").
          In HTML, the header is a structural element marked up
          with, for example, an H2 element. Finally, the
          presentation of the header might be a bold block text
          in the margin, a centered line of text, a title spoken
          with a certain voice style (like an aural font), etc.
          
   Dynamic HTML (DHTML)
          DHTML is the marketing term applied to a mixture of
          standards including HTML, style sheets, the Document
          Object Model [DOM1] and scripting. However, there is no
          W3C specification that formally defines DHTML. Most
          guidelines may be applicable to applications using
          DHTML, however the following guidelines focus on issues
          related to scripting and style sheets: guideline 1,
          guideline 3, guideline 6, guideline 7, and guideline
          9.
          
   Element
          This document uses the term "element" both in the
          strict SGML sense (an element is a syntactic construct)
          and more generally to mean a type of content (such as
          video or sound) or a logical construct (such as a
          header or list). The second sense emphasizes that a
          guideline inspired by HTML could easily apply to
          another markup language.
          Note that some (SGML) elements have content that is
          rendered (e.g., the P, LI, or TABLE elements in HTML),
          some are replaced by external content (e.g., IMG), and
          some affect processing (e.g., STYLE and SCRIPT cause
          information to be processed by a style sheet or script
          engine). An element that causes text characters to be
          part of the document is called a text element.
          
   Equivalent
          Content is "equivalent" to other content when both
          fulfill essentially the same function or purpose upon
          presentation to the user. In the context of this
          document, the equivalent must fulfill essentially the
          same function for the person with a disability (at
          least insofar as is feasible, given the nature of the
          disability and the state of technology), as the primary
          content does for the person without any disability. For
          example, the text "The Full Moon" might convey the same
          information as an image of a full moon when presented
          to users. Note that equivalent information focuses on
          fulfilling the same function. If the image is part of
          a link and understanding the image is crucial to
          guessing the link target, an equivalent must also give
          users an idea of the link target. Providing equivalent
          information for inaccessible content is one of the
          primary ways authors can make their documents
          accessible to people with disabilities.
          As part of fulfilling the same function of content an
          equivalent may involve a description of that content
          (i.e., what the content looks like or sounds like). For
          example, in order for users to understand the
          information conveyed by a complex chart, authors should
          describe the visual information in the chart.
          Since text content can be presented to the user as
          synthesized speech, braille, and visually-displayed
          text, these guidelines require text equivalents for
          graphic and audio information. Text equivalents must be
          written so that they convey all essential content.
          Non-text equivalents (e.g., an auditory description of
          a visual presentation, a video of a person telling a
          story using sign language as an equivalent for a
          written story, etc.) also improve accessibility for
          people who cannot access visual information or written
          text, including many individuals with blindness,
          cognitive disabilities, learning disabilities, and
          deafness.
          Equivalent information may be provided in a number of
          ways, including through attributes (e.g., a text value
          for the "alt" attribute in HTML and SMIL), as part of
          element content (e.g., the OBJECT in HTML), as part of
          the document's prose, or via a linked document (e.g.,
          designated by the "longdesc" attribute in HTML or a
          description link). Depending on the complexity of the
          equivalent, it may be necessary to combine techniques
          (e.g., use "alt" for an abbreviated equivalent, useful
          to familiar readers, in addition to "longdesc" for a
          link to more complete information, useful to first-time
          readers). The details of how and when to provide
          equivalent information are part of the Techniques
          Document ([TECHNIQUES]).
          A text transcript is a text equivalent of audio
          information that includes spoken words and non-spoken
          sounds such as sound effects. A caption is a text
          transcript for the audio track of a video presentation
          that is synchronized with the video and audio tracks.
          Captions are generally rendered visually by being
          superimposed over the video, which benefits people who
          are deaf and hard-of-hearing, and anyone who cannot
          hear the audio (e.g., when in a crowded room). A
          collated text transcript combines (collates) captions
          with text descriptions of video information
          (descriptions of the actions, body language, graphics,
          and scene changes of the video track). These text
          equivalents make presentations accessible to people who
          are deaf-blind and to people who cannot play movies,
          animations, etc. It also makes the information
          available to search engines.
          One example of a non-text equivalent is an auditory
          description of the key visual elements of a
          presentation. The description is either a prerecorded
          human voice or a synthesized voice (recorded or
          generated on the fly). The auditory description is
          synchronized with the audio track of the presentation,
          usually during natural pauses in the audio track.
          Auditory descriptions include information about
          actions, body language, graphics, and scene changes.
          
   Image
          A graphical presentation.
          
   Image map
          An image that has been divided into regions with
          associated actions. Clicking on an active region causes
          an action to occur.
          When a user clicks on an active region of a client-side
          image map, the user agent calculates in which region
          the click occurred and follows the link associated with
          that region. Clicking on an active region of a
          server-side image map causes the coordinates of the
          click to be sent to a server, which then performs some
          action.
          Content developers can make client-side image maps
          accessible by providing device-independent access to
          the same links associated with the image map's regions.
          Client-side image maps allow the user agent to provide
          immediate feedback as to whether or not the user's
          pointer is over an active region.
          
   Important
          Information in a document is important if understanding
          that information is crucial to understanding the
          document.
          
   Linearized table
          A table rendering process where the contents of the
          cells become a series of paragraphs (e.g., down the
          page) one after another. The paragraphs will occur in
          the same order as the cells are defined in the document
          source. Cells should make sense when read in order and
          should include structural elements (that create
          paragraphs, headers, lists, etc.) so the page makes
          sense after linearization.
          
   Link text
          The rendered text content of a link.
          
   Natural Language
          Spoken, written, or signed human languages such as
          French, Japanese, American Sign Language, and braille.
          The natural language of content may be indicated with
          the "lang" attribute in HTML ([HTML40], section 8.1)
          and the "xml:lang" attribute in XML ([XML], section
          2.12).
          
   Navigation Mechanism
          A navigation mechanism is any means by which a user can
          navigate a page or site. Some typical mechanisms
          include:
          
        navigation bars
                A navigation bar is a collection of links to the
                most important parts of a document or site.
                
        site maps
                A site map provides a global view of the
                organization of a page or site.
                
        tables of contents
                A table of contents generally lists (and links
                to) the most important sections of a document.
                
   Personal Digital Assistant (PDA)
          A PDA is a small, portable computing device. Most PDAs
          are used to track personal data such as calendars,
          contacts, and electronic mail. A PDA is generally a
          handheld device with a small screen that allows input
          from various sources.
          
   Screen magnifier
          A software program that magnifies a portion of the
          screen, so that it can be more easily viewed. Screen
          magnifiers are used primarily by individuals with low
          vision.
          
   Screen reader
          A software program that reads the contents of the
          screen aloud to a user. Screen readers are used
          primarily by individuals who are blind. Screen readers
          can usually only read text that is printed, not
          painted, to the screen.
          
   Style sheets
          A style sheet is a set of statements that specify
          presentation of a document. Style sheets may have three
          different origins: they may be written by content
          providers, created by users, or built into user agents.
          In CSS ([CSS2]), the interaction of content provider,
          user, and user agent style sheets is called the
          cascade.
          Presentation markup is markup that achieves a stylistic
          (rather than structuring) effect such as the B or I
          elements in HTML. Note that the STRONG and EM elements
          are not considered presentation markup since they
          convey information that is independent of a particular
          font style.
          
   Tabular information
          When tables are used to represent logical relationships
          among data -- text, numbers, images, etc., that
          information is called "tabular information" and the
          tables are called "data tables". The relationships
          expressed by a table may be rendered visually (usually
          on a two-dimensional grid), aurally (often preceding
          cells with header information), or in other formats.
          
   Until user agents ...
          In most of the checkpoints, content developers are
          asked to ensure the accessibility of their pages and
          sites. However, there are accessibility needs that
          would be more appropriately met by user agents
          (including assistive technologies). As of the
          publication of this document, not all user agents or
          assistive technologies provide the accessibility
          control users require (e.g., some user agents may not
          allow users to turn off blinking content, or some
          screen readers may not handle tables well). Checkpoints
          that contain the phrase "until user agents ..." require
          content developers to provide additional support for
          accessibility until most user agents readily available
          to their audience include the necessary accessibility
          features.
          Note. The W3C WAI Web site (refer to [WAI-UA-SUPPORT])
          provides information about user agent support for
          accessibility features. Content developers are
          encouraged to consult this page regularly for updated
          information.
          
   User agent
          Software to access Web content, including desktop
          graphical browsers, text browsers, voice browsers,
          mobile phones, multimedia players, plug-ins, and some
          software assistive technologies used in conjunction
          with browsers such as screen readers, screen
          magnifiers, and voice recognition software.
     _________________________________________________________
   
Acknowledgments

   Web Content Guidelines Working Group Co-Chairs:
          Chuck Letourneau, Starling Access Services
          Gregg Vanderheiden, Trace Research and Development
          
   W3C Team contacts:
          Judy Brewer and Daniel Dardailler
          
   We wish to thank the following people who have contributed
          their time and valuable comments to shaping these
          guidelines:
          Harvey Bingham, Kevin Carey, Chetz Colwell, Neal Ewers,
          Geoff Freed, Al Gilman, Larry Goldberg, Jon Gunderson,
          Eric Hansen, Phill Jenkins, Leonard Kasday, George
          Kerscher, Marja-Riitta Koivunen, Josh Krieger, Scott
          Luebking, William Loughborough, Murray Maloney, Charles
          McCathieNevile, MegaZone (Livingston Enterprises),
          Masafumi Nakane, Mark Novak, Charles Oppermann, Mike
          Paciello, David Pawson, Michael Pieper, Greg Rosmaita,
          Liam Quinn, Dave Raggett, T.V. Raman, Robert Savellis,
          Jutta Treviranus, Steve Tyler, Jaap van Lelieveld, and
          Jason White
          
   The original draft of this document is based on "The Unified
   Web Site Accessibility Guidelines" ([UWSAG]) compiled by the
   Trace R & D Center at the University of Wisconsin. That
   document includes a list of additional contributors.
   
References

   For the latest version of any W3C specification please consult
   the list of W3C Technical Reports.
   
   [CSS1]
          "CSS, level 1 Recommendation", B. Bos, H. Wium Lie,
          eds., 17 December 1996, revised 11 January 1999. The
          CSS1 Recommendation is:
          http://www.w3.org/TR/1999/REC-CSS1-19990111.
          The latest version of CSS1 is available at:
          http://www.w3.org/TR/REC-CSS1.
          
   [CSS2]
          "CSS, level 2 Recommendation", B. Bos, H. Wium Lie, C.
          Lilley, and I. Jacobs, eds., 12 May 1998. The CSS2
          Recommendation is:
          http://www.w3.org/TR/1998/REC-CSS2-19980512.
          The latest version of CSS2 is available at:
          http://www.w3.org/TR/REC-CSS2.
          
   [DOM1]
          "Document Object Model (DOM) Level 1 Specification", V.
          Apparao, S. Byrne, M. Champion, S. Isaacs, I. Jacobs,
          A. Le Hors, G. Nicol, J. Robie, R. Sutor, C. Wilson,
          and L. Wood, eds., 1 October 1998. The DOM Level 1
          Recommendation is:
          http://www.w3.org/TR/1998/REC-DOM-Level-1-19981001.
          The latest version of DOM Level 1 is available at:
          http://www.w3.org/TR/REC-DOM-Level-1
          
   [HTML40]
          "HTML 4.0 Recommendation", D. Raggett, A. Le Hors, and
          I. Jacobs, eds., 17 December 1997, revised 24 April
          1998. The HTML 4.0 Recommendation is:
          http://www.w3.org/TR/1998/REC-html40-19980424.
          The latest version of HTML 4.0 is available at:
          http://www.w3.org/TR/REC-html40.
          
   [HTML32]
          "HTML 3.2 Recommendation", D. Raggett, ed., 14 January
          1997. The latest version of HTML 3.2 is available at:
          http://www.w3.org/TR/REC-html32.
          
   [MATHML]
          "Mathematical Markup Language", P. Ion and R. Miner,
          eds., 7 April 1998. The MathML 1.0 Recommendation is:
          http://www.w3.org/TR/1998/REC-MathML-19980407.
          The latest version of MathML 1.0 is available at:
          http://www.w3.org/TRREC-MathML.
          
   [PNG]
          "PNG (Portable Network Graphics) Specification", T.
          Boutell, ed., T. Lane, contributing ed., 1 October
          1996. The latest version of PNG 1.0 is:
          http://www.w3.org/TR/REC-png.
          
   [RDF]
          "Resource Description Framework (RDF) Model and Syntax
          Specification", O. Lassila, R. Swick, eds., 22 February
          1999. The RDF Recommendation is:
          http://www.w3.org/TR/1999/REC-rdf-syntax-19990222.
          The latest version of RDF 1.0 is available at:
          http://www.w3.org/TR/REC-rdf-syntax
          
   [RFC2068]
          "HTTP Version 1.1", R. Fielding, J. Gettys, J. Mogul,
          H. Frystyk Nielsen, and T. Berners-Lee, January 1997.
          
   [SMIL]
          "Synchronized Multimedia Integration Language (SMIL)
          1.0 Specification", P. Hoschka, ed., 15 June 1998. The
          SMIL 1.0 Recommendation is:
          http://www.w3.org/TR/1998/REC-smil-19980615
          The latest version of SMIL 1.0 is available at:
          http://www.w3.org/TR/REC-smil
          
   [TECHNIQUES]
          "Techniques for Web Content Accessibility Guidelines
          1.0", W. Chisholm, G. Vanderheiden, I. Jacobs, eds.
          This document explains how to implement the checkpoints
          defined in "Web Content Accessibility Guidelines 1.0".
          The latest draft of the techniques is available at:
          http://www.w3.org/TR/WAI-WEBCONTENT-TECHS/
          
   [WAI-AUTOOLS]
          "Authoring Tool Accessibility Guidelines", J.
          Treviranus, J. Richards, I. Jacobs, C. McCathieNevile,
          eds. The latest Working Draft of these guidelines for
          designing accessible authoring tools is available at:
          http://www.w3.org/TR/WAI-AUTOOLS/
          
   [WAI-UA-SUPPORT]
          This page documents known support by user agents
          (including assistive technologies) of some
          accessibility features listed in this document. The
          page is available at:
          http://www.w3.org/WAI/Resources/WAI-UA-Support
          
   [WAI-USERAGENT]
          "User Agent Accessibility Guidelines", J. Gunderson and
          I. Jacobs, eds. The latest Working Draft of these
          guidelines for designing accessible user agents is
          available at: http://www.w3.org/TR/WAI-USERAGENT/
          
   [WCAG-ICONS]
          Information about conformance icons for this document
          and how to use them is available at
          http://www.w3.org/WAI/WCAG1-Conformance.html
          
   [UWSAG]
          "The Unified Web Site Accessibility Guidelines", G.
          Vanderheiden, W. Chisholm, eds. The Unified Web Site
          Guidelines were compiled by the Trace R & D Center at
          the University of Wisconsin under funding from the
          National Institute on Disability and Rehabilitation
          Research (NIDRR),  U.S. Dept. of Education. This
          document is available at:
          http://www.tracecenter.org/docs/html_guidelines/versio
          n8.htm
          
   [XML]
          "Extensible Markup Language (XML) 1.0.", T. Bray, J.
          Paoli, C.M. Sperberg-McQueen, eds., 10 February 1998.
          The XML 1.0 Recommendation is:
          http://www.w3.org/TR/1998/REC-xml-19980210.
          The latest version of XML 1.0 is available at:
          http://www.w3.org/TR/REC-xml
