Universal Web Accessibility: Is It Possible?

1. Universal Web Accessibility: Is It Possible? Brian Kelly UK Web Focus UKOLN B.Kelly@ukoln.ac.uk Jenny Craven, Research Associate CERLIM j.craven@mmu.ac.uk BK

2. Contents • Introduction • Universal Access For All: • The Web Architecture • The People Factor • Implementation Challenges: • Current State Of UK HEI Web Sites • Accessibility and Usability • Conclusions BK

3. The Speakers • Brian Kelly: • UK Web Focus • JISC-funded advisory post • Based at UKOLN, University Of Bath • Jenny Craven: • Research Associate • Based at CERLIM, Manchester Metropolitan University BK

4. The Web Vision • The Web was developed in order to provide universal access to digital resources, and independency from: • Platforms • Applications • File formats • through use of open standards Universal Access BK

5. Standards • Before the Web • Access to resources typically required use of software vendor’s software – which was only available on limited no. of platforms. Often the software would be licensed. • The goal of the Web was to provide universal access to resources. Who could argue with this goal? Universal Access • Need for standards to provide: • Platform and application independence • Avoidance of patented technologies • Flexibility and architectural integrity • Long-term access to data • Ideally look at standards first, then find applications which support the standards. However it can be difficult to achieve this ideal! BK

6. The Case For W3C Standards • Why use open standards developed by the W3C? Why not leave it to the marketplace? • W3C’s open standards have been developed in an open environment, with the aim of achieving platform and application independency • Commercial companies develop proprietary formats in order to maximise their profits and dividends to shareholders • W3C’s open standards have been developed to interoperate with each other according to W3C’s design vision • Commercial companies typically develop proprietary formats in isolation, or along the lines of a company vision Universal Access BK

7. HTML URLs HTTP Welcome to Netsoft How Does The Web Work? • The Web has three fundamental concepts: • URLs: addresses of resources • HTTP: dialogue between client & server • HTML: format of resources Universal Access 1 User clicks on link to the address (URL)http://www.netsoft.com/hello.html Web Browser 2 Browser converts link to HTTP command (METHOD): Connect to computer at www.netsoft.com GET /hello.html The Netsofthome page 3 Remote computer sends file <HTML> <TITLE>Welcome</TITLE>.. <P>The <A HREF=“…”>Netsoft</A> home page</P> Web server 4 Local computer displays HTML file BK

8. HTML Is Dead! • Emphasis on managing HTML resources inappropriate: • HTML is an output format, which cannot easily be reused (e.g. WAP, e-Books, etc.) • Need to manage HTML fragments (only partly achievable with SSIs) • Need to manage collections of resources • Need to have single master source of data • Need to support new developments such as personalisation • Difficult to integrate with new formats Universal Access • Issues • Should we stop giving HTML training courses? • Should we stop buying HTML authoring tools? BK

9. XML – The Key Meta Format • XML: • Extensible Markup Language • A lightweight SGML designed for network use • A language for describing other languages • Addresses HTML's lack of evolvability • Arbitrary elements can be defined (<STUDENT-NUMBER>, <PART-NO>, etc) • Agreement achieved quickly - XML 1.0 became W3C Recommendation in Feb 1998 • Support from industry (SGML vendors, Microsoft, etc.) • Need for accessibility support in from start Universal Access BK

10. XML Concepts (1) • Well-formed XML resources: Make end-tags explicit: <li>...</li> Make empty elements explicit: <img .../> Quote attributes <imgsrc="logo.gif" height="20" Use consistent upper/lower case<p> and <P> are different • XMLNamespaces: Mechanism for ensuring unique XML elements e.g. a library application containing the TITLE of the XML page, the TITLE of a book and the TITLE of : <?xml:namespace ns="http://loc.org/1998-001" prefix="i"> <p>Book: <i:TITLE>The Bible</i:TITLE></p> <p>Borrower: <j:TITLE>Mr</j:TITLE> … Universal Access BK

11. XML Concepts (2) • XML Schemas: • Allow constraints to be applied on XML attributes • Express shared vocabularies and allow machines to carry out rules made by people • Richer than DTDs • See <http://www.w3.org/XML/Schema> • XSLT: • A language for transforming XML from one XML application to anothe, or to another format (e.g. PDF) • Written in XML • Knows about XML (e.g. tree structures, etc.) • See <http://www.xslt.com/> Universal Access BK

12. England France XML Concepts (3) • XLink sophisticated hyperlinking: • Links that allow you to choose multiple destinations • Bidirectional links • Links with special behaviours: • Expand-in-place / Replace / Create new window • Link on load / Link on user action • Link databases • See <http://www.xml.com/pub/a/2000/09/xlink/> • XPointer/XPath: • Provides access to arbitrary portions of XML resource • See <http://www.w3.org/TR/xptr/> Universal Access BK

13. Getting To XML With XHTML • XHTML: • HTML represented in XML • Some small changes to HTML: • Elements in lowercase <p> not <P> • Attributes must be quoted <img src="logo" height="50"> • Elements must be closed: <p >... </ p >) <img src="logo" ... /> • Gain benefits from XML • Tools available (e.g. HTML-Kit from http://www.chami.com/html-kit/) • See <http://www.webreference.com/xml/column6/>, <http://groups.yahoo.com/group/XHTML-L/> and <http://www.ariadne.ac.uk/issue27/web-focus/> Universal Access BK

14. CSS – Where You Define The Appearance • HTML/XHTML should be used to describe the basis document structure • CSS (Cascading Style Sheets): • Should be used to describe how documents should be used to describe how the document will be displayed • Separation of structure from appearance helps management (cf. modular programming) • Designed with accessibility in mind Universal Access BK

15. W3C Standards - Conclusions • W3C are coordinating the development of new open standards which: • Address the limitations of the original Web architecture • Are designed to provide device and application independence • Have accessibility considerations built-in from scratch • XHTML and CSS are the ideal now Universal Access Let us now move away from standards and consider the people aspect JC

16. What is Accessibility? • Ensuring systems and interfaces can be read by all users through: • Access to hardware and software • Use of appropriate assistive technologyand accessibility features • Ensuring information can be interpreted by the technology i.e. design for all Universal Access JC

17. Why Make Information Accessible? • Resources provided online • Growth of online learning, online tutorials, etc. • Inclusive society - widening access, information for all • Legislation e.g. Disability Discrimination Act, 1995; SENDA, 2001 Universal Access JC

18. What Are The Benefits Of Universal Access? • It helps people with ……….. • Visual impairments • Learning disabilities • Mobility impairments • Hearing impairments • Speech impairments • Seizure disorders • (source: Burgstahler: Universal design of distance learning) Universal Access JC

19. What Are The Benefits Of Universal Access? • It also helps people who are …… • Using a PC with graphics switched off • Working in a noisy environment • Using a PC with a slow connection • Using other Web-based devices e.g. phones, PDAs, … Universal Access JC

20. Accessible Web Design • Text descriptions for all images and sound • Contrasting colours • Plain fonts with adjustable font sizes • Properly labelled frames and tables • Alternatives for scripts, applets, plug-ins, etc. Universal Access JC

21. Checking For Accessibility • WAI Guidelines and Quick Tips Checklist • Automated tools • Validation services • Web Audits and Policies • PEOPLE!!!!! Universal Access

22. So Why Are People Important? • A Web site can comply with open standards. • A Web site can pass all the automated accessibility checks. • A Web site can appear to be accessible, BUT • An accessible Web site is not necessarily usable. • The best way to test for usability is by involving PEOPLE, i.e. the users Universal Access JC

23. Usability Issues • Appropriate alternative text for images, links, etc. • Use of unambiguous language • Clear and consistent layout and labelling • Logical navigation of forms, search screens, etc. • Interactive elements: online chat, quizzes, new windows, pop-up windows, … Universal Access JC

24. Checking For Usability • Automated checkers e.g. LynxView, Bobby, … • Ensure features can be altered e.g. font size, colours, etc. • Try pages with graphics turned off, different colours, etc. • Try pages using a number of Web browsers Universal Access JC

25. Checking For Usability • Sample size ….. Don’t panic!!!! • Ideally, try to use a sample of: • People with mixed abilities i.e. experienced, novice, visual impairment, hearing impairment, etc. • People using different assistive technologies Universal Access JC

26. Checking For Usability • Observation • Transaction logging • Verbal protocol • Questionnaires and/or interviews Universal Access JC

27. Implementation Challenges • We have: • Given an overview of the Web framework, the importance of standards, and the development of new, richer standards • Outlined the importance of a people-oriented approach to complement the technical architecture • Outlined basic design principles for usable and accessible Web services • This sounds great in theory, but what around real-world deployment issues: • An accessibility & usability case study • Challenges at the institutional level Implementation Challenges JC

28. Case Study: The NoVA Project • NoVA: Non-visual access to the digital library: To develop understanding of the information seeking behaviour of blind and visually impaired people in Web-based digital library resources. Implementation Challenges JC

29. NoVA Usability Testing • Sample of 20 ‘sighted’, 20 ‘visually impaired’ users. • Semi-structured tasks using four electronic resources. • Map search process together with verbal dialog. • Pre- and Post-task questions Implementation Challenges JC

30. Examples Of Observations • Surveying page • Time taken • Types of mouse clicks and keystrokes • Problems experienced • Tackling problems • Successful interaction • Performance of assistive technologies Implementation Challenges JC

31. Examples Of Usability Questions • Navigation • Searching • Browsing • Results • Getting lost • Other resources Implementation Challenges JC

32. Conclusions Derived From NoVA Usability Testing • Usability issues • Design issues • Training issues • Software issues Implementation Challenges BK

33. Implementation Challenges • In the real world we are faced with several implementation challenges: • Deficiencies in specs, tools, etc. • Migration and support implications • Addressing user needs and resourcing implications and not just technical considerations Implementation Challenges BK

34. The Real World Web • In the real world Web we need to recognise several external factors: • Due to the rapid development of Web specs ("the Web year") the specs themselves may be flawed, ambiguous or over-ambitious • Software has bugs (the cockup theory) • Software vendors have their own agendas (conspiracy theory) • Together with local factors: • Inertia / unwillingness to act as guinea pigs • Licensing costs • Support issues • … Implementation Challenges BK

35. UK HEIs - A Case Study • In Sept 2003 a survey of accessibility of 160+ UK HEI entry points was carried out: • Used Bobby tool (to report on problems which could be spotted using an automated tool) • How many WAI AA entry points were found? • The survey found: • 4 entry points complied with WAI AA • One was a JavaScripted site (so isn't accessible) • The UK HEI Web management community is aware of importance of accessibility and wants to implement accessibility. What are the difficulties? Implementation Challenges See <http://www.ariadne.ac.uk/issue33/web-watch/> BK

36. UK HEIs - A Case Study (2) • An example of a AA-approved site is the University of Bristol BK

37. UK HEIs - A Case Study (3) • Typical problems found: • Missing DOCTYPES • Missing ALT attributes in IMG tags • Use relative sizing and positioning (% values) rather than absolute (pixels) • The first two problems could be fixed with little effort on a single page • The third problem may conflict with usability criteria • Let us now: • Look at the challenges in accessible Web sites (and not just pages) • Consider the usability issues Implementation Challenges BK

38. WAI Implementation Challenges • Many University Web managers want to comply with WAI but have encountered implementation challenges: • Limitations of authoring tools • Browser bugs (e.g. Netscape 4) • Apparent conflicts between usability and accessibility • Resource implications of deploying new tools, training, etc. • The scope of large institutional Web sites • Finding the funding Implementation Challenges BK

39. WAI Implementation Challenges • One Web manager commented that " I too have recently been struggling with just how rigorously the WAI guidelines should be implemented. … I certainly aspire to comply as fully as I can with the WAI guidelines but ": • Some guidelines are too theoretical • Will have a pragmatic approach: • Use tables for positioning • Will not associate form controls for search boxes • Not necessarily nest headers correctly Implementation Challenges BK

40. Accessibility Policies • You may wish to have an institutional accessibility policy All resources on the University Web site will comply with WAI AA Implementation Challenges • But: • Is this practical • All Web sites? • What about MS Word / PowerPoint documents? • How will compliance be audited? • What about difficult areas (e.g. 3D maps)? • What about people? What about usability? • How will this be funded? • Is this policy intended to be rigorously enforced, or does it define an aspiration? BK

41. Conclusions • Standards • Use of open standards promises to provide a rich and platform- and application-independent framework which the HE sector needs • However deployment of standards-based services in a real-world context is not necessarily easy • Accessibility • Technical aspects are an essential but not sufficient condition • Ensure that user issues are addressed • You should address usability issues alongside accessibility • There is probably a need for an accessibility institutional policy – but thought will be needed for this BK

42. Advice and Good Practice • World Wide Web Consortium (W3C), Web Accessibility Initiative: <http:// www.w3.org/WAI/> • REVIEL Project - Good Design Principles: <http://www.cerlim.ac.uk/projects/reviel/resource.htm> • Usable IT Web site: <http://www.useit.com/> • NoVA project final report: <http://www.cerlim.ac.uk/projects/nova.html>