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Sandra Earl

untitled - 0 views

www.iheni.com/e-shifts-on-desktop-and-mobile

mobile accessibility reading best practices standards

shared by Sandra Earl on 12 Oct 10 - Cached
  • The upsurge in VoiceOver could be explained in part by iPhone now providing VoiceOver support; all of a sudden there is a very real reason to switch to Mac if you can use a screen reader you are familiar with on both your desktop and mobile.
  • The upsurge in VoiceOver could be explained in part by iPhone now providing VoiceOver support; all of a sudden there is a very real reason to switch to Mac if you can use a screen reader you are familiar with on both your desktop and mobile.
  • It’s good to also see the free, open source NVDA on the up. They’ve worked hard to include WAI-ARIA support and are becoming a key tool for web developers when testing.
  • ...4 more annotations...
  • We’re still faced with one massive problem with mobile access however and that’s the lack of an open, cross platform accessibility API that mobile screen readers can hook into. On desktop we have IAccessible2, MSAA and UI Automation (amongst others) but on mobile users are tied into one platform often only supporting one browser (such as iPhone, Blackberry RIM and others) so while desktop has opened up we find ourselves in a 1990’s type impasse with users left with little room to choose on mobile. Opera works well with VoiceOver but we have no way of telling if it works on the iPhone as it’s not supported. My hope is that with more users there’ll be more momentum behind breaking this stand off and opening up the market and ultimately giving users not only choice but portability between platforms.
  • It’s good to also see the free, open source NVDA on the up. They’ve worked hard to include WAI-ARIA support and are becoming a key tool for web developers when testing.
  • « Yay factor! Going global with standards and BBC Click on web accessibility Make video accessible, localised, mobile and searchable by captioning » Screen reader software usage shifts on desktop and mobile Nov 4th, 2009 by iheni WebAim released their 2009 Screen Reader Survey last week, a follow up from last years Screen Reader survey. Very good reading it makes too but of particular interest are results around screen reader choice on the desktop and increased screen reader access on mobile. For years it’s felt like screen reader users have mainly used IE on the desktop in combination with the major screen readers Jaws by Freedom Scientific and WindowEyes by GW Micro. It’s not that other platforms don’t support screen readers (we have Orca on Linux, VoiceOver on Mac) it’s just that IE seems to have dominated. As such what types of content and web technologies users can and can’t access has very much been driven by what the three software vendors Microsoft, Freedom Scientific and GW Micro have supported. This has made access to the open web a bit lopsided cutting down on choice for the end user, competition and by extension innovation. SVG is an example of a web technology that has possibly suffered by not being supported by IE and in turn by Jaws and WindowEyes. What’s interesting to see in this year’s survey is that Jaws and WindowEyes – while still the most used – have some stiff competition at snapping at their heels from open source, free screen readers (NVDA and  SAToGo ) and VoiceOver which is available with Mac: JAWS 75.2% Window Eyes 23.5% VoiceOver 14.6% System Access or System Access To Go 22.3% NVDA 25.6% While this year’s stats show little shift for Jaws and WindowEyes usage overall there is a significant leap forward for NVDA (NonVisual Desktop Access) and VoiceOver: Of the 1121 respondents, 74% use JAWS, 23% use Window-Eyes, 8% use NVDA, and 6% use VoiceOver. While several other screen readers were reported, these were the most prominently reported. The upsurge in VoiceOver could be explained in part by iPhone now providing VoiceOver support; all of a sudden there is a very real reason to switch to Mac if you can use a screen reader you are familiar with on both your desktop and mobile. This could also explain the increase of screen reader users on mobile reported this year with 53% of survey respondents with disabilities confirming they use a screen reader on a mobile device. This is up from 12% last year (although last year’s survey doesn’t distinguish disabled from non-disabled users). I wonder how much this is to do with the ‘iPhone Factor’ but also can’t help thinking that social networking has done for the mobile web what Kylie Minogue did for Agent Provocateur – everybody wants some. And for me at least 2009 feels like the year that we all sat up and paid attention to the potential of mobile for people with disabilities. We’re still faced with one massive problem with mobile access however and that’s the lack of an open, cross platform accessibility API that mobile screen readers can hook into. On desktop we have IAccessible2, MSAA and UI Automation (amongst others) but on mobile users are tied into one platform often only supporting one browser (such as iPhone, Blackberry RIM and others) so while desktop has opened up we find ourselves in a 1990’s type impasse with users left with little room to choose on mobile. Opera works well with VoiceOver but we have no way of telling if it works on the iPhone as it’s not supported. My hope is that with more users there’ll be more momentum behind breaking this stand off and opening up the market and ultimately giving users not only choice but portability between platforms.
  • We’re still faced with one massive problem with mobile access however and that’s the lack of an open, cross platform accessibility API that mobile screen readers can hook into.
  • Sandra Earl on 12 Oct 10
     
    "We're still faced with one massive problem with mobile access however and that's the lack of an open, cross platform accessibility API that mobile screen readers can hook into."
Sandra Earl

Digital Web Magazine - Understanding Disabilities when Designing a Website - 0 views

www.digital-web.com/...ities_when_designing_a_website

accessibility design standards general development FUSION09

shared by Sandra Earl on 12 Oct 10 - Cached
  • In the UK In the US 2m people have a vision impairment3 10m people have a vision impairment4 8.2m people have mild to moderate deafness5, 688,000 people have severe to profound deafness6 28m people have a hearing impairment7 3.4m people have a physical disability8 8m people have a physical disability9 1.5m people have a learning disability10 6.8m people have a learning disability11 6m people have dyslexia12 25m people have dyslexia13
  • Most people who are blind will rely on screen reading software such as
  • JAWS or Windows-Eyes
  • ...41 more annotations...
  • refreshable Braille device which converts the text on the website into Braille.
  • Place form instructions before the form field
  • To improve accessibility and usability for screen reader users, form field requirements must be placed before the form field itself.
  • Provide a ‘skip to main content’ link Screen reader users benefit from a ‘skip to main content’ link as it enables them to jump over lengthy navigation to the main content of the web page, reducing the amount of content they have to listen to.
  • Ensure link text is descriptive Screen reader users using software such as JAWS can listen to the links on a web page through functionality known as a links list. If link text is not descriptive—solely using phrases such as “click here” or “more information”, for example—there is no way for screen reader users to determine where the link will take them.
  • Provide descriptive web page titles The first piece of information a screen reader user will listen to when they open a web page is the <title> assigned to the page. It is important, therefore, to use a title which reflects the content of the web page.
  • Provide descriptive headings It is important to provide descriptive headings
  • Screen reader users often listen to headings out of context from the main content
  • Provide audio descriptions and transcripts of video content Screen reader users depend on audio descriptions to provide additional information about important visual content displayed within a video.
  • Transcripts are written accounts of the video or audio content and can include additional information such as comments and descriptions
  • screen reader users cannot use a mouse
  • People with low vision will tend to use magnification software to make reading a website easier. Depending on the severity of their vision impairment, these users may combine magnification and screen reading software by using software products such as Supernova or ZoomText. For milder vision impairments, users may just increase the default size of text within their browser settings or change the colors to make the content more comfortable to read.
  • Avoid using images of text
  • Ensure text can be resized
  • Place key information in specific locations of the screen
  • ebsite search functionality is often located in the top-right corner of the web page
  • Juicy Studio color contrast analyzer.
  • it is possible to determine whether the colors chosen meet the minimum requirements specified in the WCAG Guidelines.
  • People with a hearing impairment tend not to use assistive software to improve their web browsing experience. Instead, they rely on the website being accessible by providing any audio content in alternative formats, such as captioning or transcripts.
  • By making audio content accessible for users with a hearing impairment, it also makes the content accessible for other users who find themselves in an environment where audio cannot be heard.
  • library with the sound turned down; they may be in a noisy environment where it is difficult to hear the audio; or they may be using a computer without speakers.
  • Provide captions for any video content
  • Provide transcripts of the spoken audio Where content is spoken without video, such as in a podcast, it is important to provide a transcript. It is recommended that the transcript be provided in plain accessible HTML to allow access by the widest possible audience, as opposed to a Microsoft Word or Adobe PDF document.
  • Physical disabilities range in severity from those who are temporarily disabled, for example having a broken arm, to those who are quadriplegic and have no use of any limbs. Depending on the severity of the physical disability, these users may access websites through voice recognition software such as Dragon Naturally Speaking.
  • However, what all users with a physical disability have in common is limited or no ability to use a mouse. This means that content within the website that requires a mouse click or fine motor control cannot be accessed by these users.
  • Ensure all content can be accessed via the keyboard
  • Users with a physical disability will have limited or no ability to use a mouse and as such will navigate websites using the keyboard.
  • Provide a focus state for links
  • Provide visible skip links Skip links are links that become visible when they receive focus, and are helpful for users with a physical disability. Keyboard users must tab through the web page to reach the particular link they are interested in—skip links allow lengthy navigation to be bypassed and reduce the number of key presses required to activate links in the main content.
  • Avoid moving targets Avoid using moving targets such as tickers, as users with a physical disability can find them very difficult to use.
  • Provide large clickable areas
  • provide sufficient whitespace between links
  • People with a cognitive or learning disability may have difficulties with memory, problem solving, perception, and conceptualization. In addition, people with a learning disability may have issues with reading and comprehension such as dyslexia.
  • To enhance the usability of the website for these users it is important that content is written in plain English, page layouts are simple in design, navigation is clear and consistent and there is no moving content to impede comprehension.
  • Provide the same look and feel throughout all pages of the website. Ensure that the navigation and main content are located in the same area of every page. Additionally, consider color coding different sections within the website. Users with cognitive or learning disabilities tend to find it easier to navigate around sections which are color coded.
  • Provide a site map A site map will enable users with a cognitive or learning disability to have a clear idea of the breadth of content contained within the website. The site map also enables users to directly access any page on the website, and helps if the user becomes lost.
  • Use a resizable sans-serif font which is left-aligned To increase readability for users with a cognitive or learning disability, use a sans-serif font which can be resized. Additionally, left-align content—justified text is more difficult to read due to the uneven spacing between words. Italicized and capitalized text should also be kept to a minimum to aid readability.
  • Provide helpful error messages
  • Offer speech output Organizations such as Browse Aloud and Textic enable content from a website to be spoken when highlighting the words on a web page. Offering this functionality is especially helpful for users who find it difficult to read large amounts of text.
  • Provide an Easy Read Version Consider providing an ‘easy read’ version of complex content. This combines plain text with images to aid understanding of the information. For an example of an easy read document see the Department of Health’s Making Lives Better for People with a Learning Disability.
  • Provide different color schemes People with cognitive or learning disabilities may benefit from different color scheme options. It is helpful if an easy read scheme such as a lemon background with dark text, and a hi-viz scheme such as a black background with yellow text, are provided.
Vernon Fowler

HTML5 Accessibility Chops: section elements | The Paciello Group Blog - 0 views

www.paciellogroup.com/...ibility-chops-section-elements

accessibility html5

shared by Vernon Fowler on 24 Nov 12 - No Cached
  • The following table illustrates support and interaction features for a number of structural HTML elements. The information is based on support for these elements by the JAWS screen reader.
  • Recommended ARIA role mappings for HTML5 section elements
  • <header role=”banner”>
  • ...1 more annotation...
  • <nav role=”navigation”>
  • Vernon Fowler on 24 Nov 12
     
    "banner"
Sandra Earl

WebAIM: Screen Reader Survey Results - 0 views

webaim.org/...screenreadersurvey

accessibility vision blindness screen reader WebAIM general FUSION09

shared by Sandra Earl on 12 Oct 10 - Cached
  • We received 1121 valid responses to the screen reader survey, which was conducted Dec. 2008 - Jan. 2009.
  • Skip to content22% Skip to main content28%
  • 33 respondents (2.9%) reported being both deaf and blind.
  • ...33 more annotations...
  • Please rate your computer proficiency Response% of Respondents Expert22% Advanced44% Intermediate27% Beginner8%
  • Please rate your screen reader proficiency Response% of Respondents Expert17% Advanced41% Intermediate32% Beginner9%
  • Screen Reader Usage
  • Of the 1121 respondents, 74% use JAWS, 23% use Window-Eyes, 8% use NVDA, and 6% use VoiceOver. While several other screen readers were reported, these were the most prominently reported. Individual versions of screen readers are not yet computed, but generally the majority of users are using the most up-to-date version of their screen reader.
  • How soon do you update your screen reader after a new version is released? Upgrade Window% of Respondents Immediately41% First 6 months25% 6-12 months9% 1-2 years9% 2-3 years4% 3+ years6% No response6%
  • How customized are your screen reader settings? (e.g., changed verbosity, installed scripts, etc.) Response% of Respondents A lot29% Somewhat40% Slightly21% Not at all7% No response4%
  • a lot or some customization was reported by only 27.6% of respondents with no disability versus 71.4% for those that reported blindness.
  • 78% of respondents reported using a screen reader on a desktop computer, 54% use a screen reader on a laptop, and 12% use a screen reader on a mobile phone.
  • No respondents who use screen readers for evaluation reported using a screen reader on a mobile device.
  • Which web browser(s) do you currently use with a screen reader? Browser% of Respondents IE633% IE768% IE82% Firefox39% Safari6%
  • Respondents with no disability were nearly twice as likely to list Firefox as blind respondents - 66% to 37%.
  • The percentage of Safari users is over double that of the overall population - this may be due in part to the fact that some in the Mac community actively solicited survey participation and encouraged respondents to indicate their Safari use, perhaps partially due to feeling snubbed because we didn't list them with IE and Firefox as direct choices.
  • When first accessing a new, unfamiliar home page, I'm most likely to... Response% of Respondents Read through the home page46% Navigate through or listen to the links on the page35% Use the Search to find what I'm looking for13% Look for a site map or site index3% No Response2%
  • Interestingly, the more proficient screen reader users are more likely to read through the home page and use links less often than less proficient screen reader users. This may be due to faster reading speeds for more experienced users. The home page strategies used were very similar regardless of proficiency, disability, or amount of screen reader use.
  • I use "skip to content" or "skip navigation" links... Response% of Respondents Whenever they're available22% Often16% Sometimes28% Seldom19% Never10% No Response4%
  • Some questions were of a technical nature and we understand that many participants may not have been very technically savvy. Responses may also be based upon user experiences with web content that is generally inaccessible. We cannot help but wonder if responses may have been different if screen reader interactions with web content were typically very positive.
  • I use Access keys... Response% of Respondents Whenever they're available22% Often16% Sometimes28% Seldom19% Never10%
  • I navigate by headings... Response% of Respondents Whenever they're available52% Often24%
  • 76% always or often navigating by headings when they are available.
  • I use site search functionality... Response% of Respondents Whenever it's available26% Often25% Sometimes31%
  • Find the word "Search"18% Jump to the first text/edit field on the page25%
  • Jump to the first form element in a page36%
  • Proficient screen reader users were more than twice as likely to jump directly to the form or text/edit field than less proficient users. Less proficient users were nearly three times more likely to use more manual methods (reading, tabbing, or finding) than more proficient users.
  • a majority of respondents seldom or never use site maps. There was no marked difference in the use of site maps across screen reader proficiency or disability. In general, it appears that site maps may be beneficial, but are not commonly accessed by screen reader users.
  • Text-only versions are always used by many and never used by many. As such, it is very difficult to interpret the value they have for screen reader users. More proficient screen reader users were much less likely to use text-only versions than less proficient users. This may suggest that proficient users employ sufficient techniques to render the main version acceptable to them. Or, it may suggest that proficient users do not gain value in using text-only versions, which are often less than optimal.
  • If content is identified as being "for screen reader users", how often do you use it? Response% of Respondents Whenever it's available38% Often15% Sometimes25% Seldom13%
  • A closer analysis, however, reveals that pop-up windows are reported as very difficult twice as often by less proficient screen reader users than with higher proficiency. Alternatively, more proficient users were three times more likely to indicate that pop-up windows are not at all difficult. This shows that less proficient screen reader users (which represent 41% of respondents) have more difficult experiences with pop-up windows.
  • Firefox users were much more likely to give a favorable response, perhaps a reflection of Firefox support for ARIA, etc. Evaluators and those without disabilities were nearly twice as likely to indicate that these applications are not very or not at all accessible than those that always use screen readers or have disabilities. This may suggest that these applications are actually more accessible than evaluators believe them to be, or alternatively, that screen reader users with disabilities are less knowledgeable about the true inaccessibility of these technologies.
  • 66% of evaluators preferred that the image be ignored, compared to only 28% of those that always user a screen reader. Similarly, 65% of those with no disability preferred that the image be ignored, compared to 29% of those with disabilities.
  • If a web page contains a photo of the White House, I prefer that the image be identified as... Response% of Respondents Photo of the White House80%
  • 69.4% of evaluators found them difficult compared to only 42.6% of those that always use a screen reader. Those with higher screen reader proficiency naturally found these links easier.
  • 71.5% of screen reader users reported that Flash is difficult
  • While the majority (58%) of users reported that frames are easy, those that are blind were 3 1/2 times more likely to indicate that they are easy than those with no disability. Similarly, those that always use a screen reader reported frames as easy nearly 3 times more often than evaluators. This perhaps suggests a misconception among those that do not have disabilities that frames are very inaccessible when in fact those with disabilities find them easy.
Vernon Fowler

Image ALT Tag Tips for HTML | AccessAbility - 0 views

accessibility.psu.edu/imageshtml

alt tag markup accessibility images

shared by Vernon Fowler on 18 Feb 14 - No Cached
  • Alt text with acronyms should be written with spaces in between letters. For instance, <alt="I T S at P S U" > (read by a screen reader as "ITS at PSU")
  • While there is no official length restriction on the length of alt text, many experts recommend 125 characters or fewer because of restrictions within the JAWS screen reader.
  • LONGDESC has incomplete support among both visual browsers and screen readers, and is deprecated in HTML5.
Sandra Earl

Multiple form labels and screen readers | 456 Berea Street - 0 views

www.456bereastreet.com/...form_labels_and_screen_readers

accessibility forms labels JavaScript alerts

shared by Sandra Earl on 12 Oct 10 - Cached
  • Well, it turns out you can do that. From The LABEL element in the HTML 4.01 specification: The LABEL element may be used to attach information to controls. Each LABEL element is associated with exactly one form control. The for attribute associates a label with another control explicitly: the value of the for attribute must be the same as the value of the id attribute of the associated control element. More than one LABEL may be associated with the same control by creating multiple references via the for attribute. Sounds great, doesn’t it? A quick check in graphical web browsers shows that they associate multiple labels with the input field (as evidenced by the input field gaining focus when either label is clicked). But what about screen readers? It would be so useful if this would work… Unfortunately, and perhaps unsurprisingly, it looks like it doesn’t quite work as well as you’d hope. I mentioned this briefly in Use the label element to make your HTML forms accessible, but I think it’s worth bringing up again since full support for multiple labels would help us make forms more accessible to screen reader users while keeping visual designers happy. I am far from an expert user when it comes to screen readers, but I’ve done some limited testing with mostly disappointing results. Apple VoiceOver does not recognise more than one label element associated with a form control and reads only the label that comes first in the document’s source order. JAWS and Window-Eyes both do the opposite and read only the last label when an input field gains focus. The only screen reader of those that I tested that does handle multiple labels is Fire Vox. The exact results may obviously depend on user configuration and reading modes, and there may be other screen readers that get it right, but these results indicate that screen reader behaviour is too inconsistent for multiple labels to be a reliable technique.
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