Adaptation of Mathematical Tests for Visually Impaired
Students in Higher Education – Daily
Practice
Mgr. Lukáš Másilko
Mgr. Ondřej Nečas
Provides service for:• visually impaired students• hearing impaired students• mobility impaired students• students with other disabilities
Adaptation of mathematical texts for visually impaired students• Books – printed form, combination of
technologies, best quality, long time
• Studying materials (short texts, teacher’s presentations, homework) – printed or electronic form, average quality, quick adaptation
• Tests and examinations – both printed AND electronic form, best quality, very quick adaptation
Test adaptation: common example• the teacher insists on one term for all students• in many cases the teacher (for some reason)
cannot provide us the assignment more then one hour before the test starts
• there are several students with different disabilities in the class
• the less time we have for the adaptation the more complex elements are in the test
Step 1: Getting the base electronic version (to convert to other formats)
• Ask the teacher – might be unsuccessful (no response, unusable format, ...)
• Scan from the paper or convert the unusable format
• Rewrite it
Question: Which base format to use?
Technologies used in Teiresias centre• Text and mathematical formulas:
– printed and embossed version
• BUF (Braille Universal Format) – the tool developed in Teiresias centre for printing mathematics according to the Czech Braille 6-dot rules
Technologies used in Teiresias centre• Text and mathematical formulas:
– electronic version
• plain text – only for simple expressions
(x1 x1; (a + b) / 2; etc.)
• BlindMoose – the authoring tool developed in Teiresias centre for working with mathematics – the Czech Braille 6-dot rules are supported
• Lambda – the European authoring tool for working with mathematics
– 8-dot Braille display and speech output are supported
– Lambda files are independent on national platforms
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Technologies used in our centre• Graphics:
– embossed version
• Swell paper (Zy-fuse Heater) – printed mainly with Corel Draw X3
• Thermoformed plastic (Maxi-Form) – matrices prepared by hand or cut from plastic with cutting plotter
Technologies used in our centre• Graphics:
– embossed version
• Dot graphics (ViewPlus SpotDot) not commonly used yet
– electronic version• none
Step 2: Producing text and mathematics
Possible conversions: • Simple LaTeX (no commands, no formating) BUF• BUF BlindMoose• LaTeX, MathML Lambda
Question: Prepare two LaTeX versions – no formating vs. adding commands to enlarge?
Formats: • Braille print: BUF• Braille electronic: BlindMoose or Lambda• Enlarged print: LaTeX or Word• Enlarged electronic: PDF (read only), Word (editable)
Step 3: Adapting pictures
both printed and electronic versions
Possible solutions in Braille:
• text description• text scheme• dot graphics• one level graphics
(swell paper)• multilevel graphics
(thermoform)• 3D model
printed version only
Question: Which technology to use?
Step 3: Adapting pictures
Possible solutions of enlarged version:
• enlarging printed picture by copier – fastest way• enlarging by optic or electronic magnifiers• enlarging by software magnifiersnot possible in some cases (thin lines, small labels, low contrast...)
• redrawing – often faster then anything else
Big pictures, schemes or tables sometimes needs to be divided or printed on larger paper format
Step 4: Putting all together
Printed and embossed version:• Pictures glued into the text (more work, a proper gap
must be left in the text)• Pictures on the separate pages or in the appendix
Electronic version for Braille users:• Embossed pictures provided separately, navigation
needed
Enlarged electronic version:• Pictures in the text• Pictures in separate files – often in the editable version
Step 5: Performing the test
Braille users:• Work with a separate file or write into the assignment• Write in plain text or use some special authoring tool
(BlindMoose, Lambda)
Enlarged print users:• Write by hand on the paper or to the printed assignment• Work on computer in plain text using various
mathematic notation (LaTeX, MatLab, ...)• Work on computer using special authoring tool
(MS Equation, Lambda, Mathematica, Maple, ...)
How the student will solve particular tasks and write answers?
Step 6: Adapting the student’s solution to be readable by the teacher
• Special format must be converted to common (PDF, etc.)
• Output is often dependent on knowledge of Braille mathematical notation (it is necessary to “convert” it)
• Visually impaired students make unusual kind of mistakes
Question: How to force teachers to learn Braille?
Thank you.
Questions?
Proposals?
Your (different) ways how to do it (simplify it)?