maccann


 

 
Australian Journal of  
Educational Technology 
 
Designing accessible learning materials for learners 
with disabilities and learning difficulties 
 

Ann MacCann 
Open Training and Education Network 

 
What do designers of learning materials need to consider in designing 
learning materials which may be used by learners who have physical, 
intellectual, vision, hearing, psychological or neurological disabilities, such 
as low literacy and numeracy levels? How can these materials be made 
more accessible for such learners? This article explains how the Open 
Training and Education Network has addressed this issue. 

 
The Open Training and Education Network (OTEN) in New South Wales 
currently has a student population of around 27,000, enrolled in various 
courses in both vocational and pre-vocational areas. Because many of 
these courses do not require attendance at formal classes, there is a strong 
tendency for learners with disabilities and learning difficulties to enrol in 
OTEN. Instructional Designers work on developing course materials for 
these learners, together with teachers who are responsible for the delivery 
of these courses. Staff from Student Support in OTEN assist students with 
disabilities and/or learning difficulties (including aboriginal students and 
those with non-English speaking backgrounds, or NESB). These OTEN 
staff members recently met at a forum to discuss issues in developing 
courses to assist these students. The outcome of this forum is the list of 
recommendations, summarised in the Appendix. 
 
The students 
 
The number of students in OTEN who have identified themselves as 
having a disability or impairment is 1,279, of whom approximately two 
thirds are being serviced by staff from Student Support. The 
disability/learning difficulty breakdown follows. 
 
 
 
 
 



110 Australian Journal of Educational Technology, 1996, 12(2) 

 

Disability Enrolments Receiving support 
 
Physical 730 420 
Intellectual 66 66 
Learning 49 49 
Vision 90 90 
Hearing 150 120 
Psychiatric 88 38 
Neurological and other 106 80 
Totals 1279 863 
 
The largest number of these students tend to be concentrated in: 
 
Pre-vocational courses: 
 

• CAFE (Certificate of Adult Foundation Education - the next step 
after literacy) 

• CGE (Certificate of General Education - Year 8 to 10 secondary 
school equivalent) 

• Matriculation (TAFE HSC) 
 
Vocational courses: ! 
 

• Environmental courses: mainly Aboriginal learners, who may have 
learning difficulties 

• Child Studies: mainly Aboriginal learners 
• Business courses: mainly learners with hearing disabilities. 

 
The recommendations 
 
These are based on the experience of teacher/consultants who deal on a 
daily basis with OTEN learners who have these disabilities and learning 
difficulties. Metacognitive strategies for learners with disabilities are dealt 
with in MacMillan(1986), particularly in the section entitled, Research on 
learning and cognition (page 696 and following). Many of the 
recommendations in the literature for learners with various disabilities 
apply to classroom learning, and integration into classes (see, for example, 
Sterling, 1994, Baine, 1982). However, this article discusses 
recommendations which apply to the development of learning materials 
since OTEN delivers most courses using a print component. 
 
 
 
 
 
 
 
 



MacCann 111 

1. Disk 
 
Ensuring that learning materials are available on disk is essential for 
visually impaired learners. Most blind students now use computer based 
synthetic speech output as their primary means of accessing print. 
Students who are severely dyslexic and who therefore cannot access print 
may also manage well with a synthetic speech output program. Students 
with learning difficulties find that reading materials on screen seems to 
help them focus on what they are reading. Additionally, learners who 
require large print are able to work from a computer screen after changing 
the font style and size to one that is most appropriate to their individual 
needs. 
 
Students who have a physical disability that limits fine motor control find 
that accessing learning materials via a computer is essential for their 
independence as learners. Several occasional papers on adaptive 
technologies for learners with disabilities are available from OTEN 
(Downie, 1993a, 1993b, 1995, and in press). 
 
2. Language use 
 
It seems rather obvious that all text should be written in plain English, but 
some vocational areas tend to bog down in difficult language. Students do 
need to learn the technical vocabulary appropriate to their chosen field, 
but this can be defined in plain English. For some learners, it is difficult to 
pick up technical language after one read, so designers should consider 
giving a variety of vocabulary building activities and practice in the use of 
technical language in self assessment activities throughout the text, 
preferably relating to the job the students are working in, or seeking. In 
some courses, language appropriate to the purpose may be different to 
what one might consider formal, written language. Some course writers 
have great difficulty writing in informal, conversational style: they see the 
print component as a textbook, rather than conducting a 'learning 
conversation' (see Baath, 1982). The challenge is to write in different 
registers for different purposes. Of course, for NESB learners, 
conversational English can also present a problem, so this must be 
carefully considered. 
 
Learners with reading difficulties will profit from use of diagrams and 
clear layout with a reduced amount of text to highlight important concepts 
and navigate through materials. 
 
3. Assessment 
 
With the increasing implementation of competency based courses in 
vocational areas, course development teams need to carefully consider 
how outcomes should be measured. In many curricula, assessment events 
and criteria have already been specified, but in others they need to be 



112 Australian Journal of Educational Technology, 1996, 12(2) 

 

specified by the course team in the planning phase. The following 
questions need to be considered: how is the learner going to use these 
skills on the job, and therefore how should they be measured? Can the 
broadest range of learners achieve them, or does the assessment criterion 
need to be changed? Consider oral work as well as written. Also 
acknowledge collaborative learning, as well as competitive (See Bryant et 
al, 1995 for using assistive technology to accomplish this; Goor et al, 1993 
on how to do it). Many writers feel that group assessment is cheating, but 
on the job, many tasks are accomplished by groups. 
 
If possible, provide alternative options to cater for different learning styles 
and consider the geographic restrictions of learners, such as prisoners and 
those with physical disabilities. In one course, learners are required to 
walk around a block and draw a map of a block in their local area. 
Prisoners were having difficulties with this! A well-constructed learner 
profile which includes possible minorities before the course is developed 
could alleviate these problems, leading to greater creativity in the 
planning and design of the course. There is sometimes difficulty in 
determining the difference between assessment for diagnostic purposes, 
and summative assessment. This should be clearly specified at the 
planning stage, so that course writers are clear about the purpose of each 
of the assessment items. In many of the pre-vocational courses, learners 
have not studied for a long time, and may not have been successful in their 
previous attempts at learning. Thus it is essential not to make the first 
assessment task too difficult, or too time consuming so learners can build 
up their confidence as they progress. Many mature-age NESB students 
aren't familiar with the system and current teaching methods, as well as 
lacking study skills. People involved in the delivery should also consider 
their role in building the confidence of students: delivery staff should be 
included in the design of the course. Disabilities Services (1994) has 
written a report for the Department of Employment, Education and 
Training on reasonable adjustment to competency assessment mechanisms 
for people with disabilities, giving examples of how this might be done 
(see p.47, section 4.3). One of the most important points the report makes 
is that (p.32) there are very different disabilities and different degrees of 
disability. Their summary states, (p.34) the differences within the group 
classified as 'people with disabilities' are actually more extreme than any 
differences between the group and other members of the population. 
 
Quirk (1994) discusses issues in language and literacy affecting 
competency based assessment (see p.36 for a summary). He also mentions 
a number of projects which are related to this issue, and are ongoing at the 
moment (pages 33-35). 
 
 
 
 
 



MacCann 113 

4. Print materials 
 
Designers should consider the consistency of font style and size. Use broad 
fonts (eg Arial, Helvetica or Universal) rather than narrower ones, which 
are more difficult to read. Consider how headings and text fonts interact: 
some designers prefer sans serif for headings, serif for text (Times is a serif 
font, Helvetica is a sans serif). Avoid the temptation of using too many 
fonts, as this can become very confusing! 
 
Always give an overview of the learning, either in decision trees, concept 
or mental maps, or flow charts. This allows learners to build a mental map 
of what is coming, and fit it into a structure. The words mind map® have 
been registered as a trademark by Tony Buzan, and ideas about how to 
use mental maps may be gained from his book (Buzan, 1993) Ensure the 
structure of the materials is clear: some readers may have had the 
experience of checking back through a long discursive text to work out 
where it has come from, and where it is going as it meanders through 
byways. Remember that learners with physical difficulties have trouble 
with the physical task of frequent page turning. Some learners with 
neurological impairment have difficulty with diagrams, as do others with 
visual and intellectual disabilities, so alternate formats are helpful. 
 
Consider how learners are going to navigate through the materials. Flag 
learning outcomes or objectives so learners can easily find them; cut down 
on referring backwards and forwards through the materials where 
possible. Some learners with physical disabilities have trouble with large 
volumes of print materials requiring them to frequently find different 
pages. 
 
Use practical and concrete examples of why things are done: why these 
things are taught, and how they will help the learner on the job. Such 
explanations also assist the learner's motivation: if you know why you are 
learning it can be easier to learn. Use graphics and diagrams plentifully to 
explain concepts. However, text should be able to stand alone: learners 
with vision impairment need a verbal explanation as well. If the diagram 
is essential, simplify it so it can be generated as a raised line drawing. 
 
Where activities or assignments require learners to walk around a block of 
houses, or to have a look at a library, a ground plan should be provided 
(for example, a typical library ground plan) for learners who have 
difficulty with walking or are geographically restricted. If the ground plan 
is what the learners need to generate, and therefore you can't provide 
them with it, then give a picture of a typical block with shops or houses on 
for them to use. 
 
Learners with hearing impairment miss information from radio and TV 
programs which don't have subtitles. Learners with literacy gaps miss 
written information. So when you need to refer to current affairs, or 



114 Australian Journal of Educational Technology, 1996, 12(2) 

 

background information from newspapers, magazines or TV programs, 
give this information where it is referred to (or ask the students to refer to 
it, giving references). 
 
Make sure that you check the learner's understanding of the print 
explanation: learners with hearing impairment and literacy gaps tend to 
assume they have understood, but may not learn in sufficient depth to be 
able to use the information later. This can also apply to all other learners. It 
may seem obvious, but it is very important. Simplify content, and repeat 
in different ways, but make sure the repetition does not become boring for 
those who understand it the first time. State the concept, give information 
on how to learn it, then give the conclusion, stating the concept again. 
Consider emphasising the structure graphically within the text, using 
different fonts and / or sizes for section headings to those used in the text. 
For instance, OTEN uses Helvetica 18 pitch for A (or main) headings, 
Helvetica 14 pitch for B (or secondary) headings, with appropriate 
spacing, and Palatino for text. As already mentioned, use cues to assist the 
learner in recognising and using the structure. Use summaries at regular 
points throughout a topic, preferably in different ways to the text: 
diagram, flow chart, table. Better still, ask the learner to summarise, giving 
a structure, then ask them to check against the answer (on the next page 
only if it's not already visible while they are doing the exercise). Give 
positive and negative examples, to illustrate what does and does not 
belong to a concept, for instance, democracy: this is a very abstract and 
elusive concept for some learners who don't have the wealth of 
background information that the teacher has. Often writers overestimate 
the knowledge and experience of the learner. 
 
5. Video 
 
Use videos as supplements, rather than to replace parts of the course. 
Remember that videos are linear, and it's more difficult to revisit sections 
than it is to turn back the pages of a print resource (for most learners). 
Students need to ask themselves questions beforehand, and revise key 
concepts after viewing. Try asking learners to formulate their own 
questions beforehand. Learners can rewind the video, particularly if they 
are experienced in this area. However, many learners with disabilities tend 
to be more frightened about using technology than learners without 
disabilities. Subtitles are better than signing, as more people with hearing 
disabilities can understand them: ensure all essential videos are subtitled. 
Hofmeister (1992) gives guidelines on developing instructional video for a 
diverse group of learners. 
 
6. Audiotapes and video voice overs 
 
Make sure the voice is deep and slow, but don't use male voices only, as 
female learners will feel left out. Learners with neurological disabilities 
often have difficulty with visual presentation because their visual memory 



MacCann 115 

may be 'scrambled': they may have trouble extracting meaning from text 
and graphics. However they have less difficulty with aural 
comprehension. So an audiotape is easier for them to understand. 
 
7. Computers 
 
Many learners learn better with computers, particularly those with 
intellectual disabilities. Computer programs which provide multi-sensory 
information are extremely motivating (see EJ497680, author not stated, for 
a literature review and Okolo, 1993 for a retrospective view of CBI). They 
also provide a means of teaching learners who have limited or no reading 
skills. However, the information is limited by what's on the screen. 
Learners may feel safer because they can go back and retrieve information. 
Multimedia on computer taps several modalities at once, but navigation 
through the material needs to be carefully considered. Also ensure that the 
learner has access to the required computer: it is very frustrating finding 
out after you start that you don't have access to essential equipment. 
Remember that some epileptics have difficulty with the flickering screen 
on the computer. For a significant number of individuals with acquired 
brain injury (for example, through car accidents), a computer can provide 
practice in interaction with less boredom than, for instance, repeated 
practice in mathematical examples from a textbook. 
 
8. Learning to learn and bridging 
 
Learning skills should be taught as part of the content in the course. Also 
consider whether some learners need basic bridging skills to acquire 
content in particular areas: in electrical courses, there may be a need to 
revise algebraic concepts for the mathematics content in the course, for 
instance. 
 
Conclusion 
 
The purpose of OTEN flexible learning materials is to develop 
independent, autonomous learners, so there is some concern that spoon 
feeding learners might lead to them relying on the materials, rather than 
becoming independent. However materials at the start of a course, and in 
pre-vocational courses, need to support learners to a greater degree. This 
support could be gradually withdrawn as the course proceeds. In OTEN, 
learners may enter some courses at any point, having started with a face-
to-face course, so a basic minimum of good instructional design should 
always be present. This will assist all learners in the course, not only those 
with disabilities and learning difficulties. 
 
Remember too that not all learners with disabilities will necessarily 
identify themselves: learners with partial hearing impairment and reading 
difficulties in particular tend to shy away from defining themselves as 
possessing a disability. Some learners have experienced patronising 
treatment in previous contexts, and may wish to try independence. It's 



116 Australian Journal of Educational Technology, 1996, 12(2) 

 

difficult to give blanket recommendations for all learners, as you will 
notice from the recommendations. Strategies which assist some learners 
will need to be carefully considered for others, for instance, diagrams and 
learners with vision impairment. However, careful consideration of the 
needs of all learners will result in more accessible, quality resources which 
meet the needs of all learners. 
 
References 
 
Baath, J. (1982). A list of ideas for the construction of distance education courses. In 

Holmberg, B. (Ed), Distance education: A short handbook. Liber Hermods, Malmo. 
Baine, David (1982). Instructional design for special education. Educational 

Technology Publications, Inc, Englewood Cliffs, New Jersey. 
Bryant, Brian R., Rivera, Diane Pedrotty (1995). Using assistive technology to 

facilitate cooperative learning. Paper presented at the Conference of the Florida 
Assistive Technology Impact and the Technology and Media Division of the 
Council for Exceptional Children (4th, Orlando, Florida, March 2-4, 1995). 

Buzan, Tony and Buzan, Barry (1993). The Mind Map Book. BBC Books, London. 
Disabilities Services (1994). Competency Assessment Mechanisms and Reasonable 

Adjustment. A report to the Department of Employment, Education and 
Training. NSW TAFE Commission, October. 

Downie, Andrew (1993a). Adaptive technology survey: Equipment for people who 
are deaf or hearing impaired. Occasional Papers 7, OTEN, Redfern. 

Downie, Andrew (1993b). Adaptive technology survey: Equipment for people who 
are blind or vision impaired. Occasional Papers 8, OTEN, Redfern. 

Downie, Andrew (1995). Adaptive technology survey: Equipment for people who 
have a physical disability. Occasional Papers 9, OTEN, Redfern. 

Downie, Andrew (in press). Equipment for people who have intellectual, 
neurological or learning disabilities. Occasional Papers, OTEN, Redfern. 

EJ497680 (1995). Instructional design of computer assisted instruction for use with 
students who have mild disabilities. Teaching Exceptional Children, 27(3, Spring), 
77-79 (this reference has no author, either in the journal or in the ERIC listing). 

Goor, Mark B. and Schwenn, John O. (1993). Accommodating diversity and 
disability with cooperative learning. Intervention in School and Clinic, 29(1, 
September), 6-16. 

Hofmeister, (1992). Learner diversity and instructional video: implications for 
developers. Educational Technology, 32(7, July), 13-16. 

MacMillan, Donald L., Keogh, Barbara K. and Jones, Reginald L. (1996). Special 
educational research on mildly handicapped learners. In Merlin C. Wittrock 
(ed), Handbook of Research on Teaching, third edition. Macmillan Publishing 
Company, New York. 

Okolo, Cynthia M., Bahr, C. and Reith, H. (1993). A retrospective view of computer 
based instruction. Journal of Special Education Technology, 12(1, Spring), 1-27. 

Quirk, Robert (1994). Language and Literacy issues in competency based assessment. 
Prepared for the Assessment Centre for Vocational Education; the project was 
commissioned by the Foundation Studies Training Division (TAFE NSW) 
utilising funding supplied by the Education and Training Foundation, October. 

Sterling, Leith (1994). Students with Acquired Brain Injuries in Primary and Secondary 
Schools. Draft report of the project by the Head Injury Council of Australia, 
funded by the Commonwealth Department of Employment, Education and 
Training (details of printing location not available in document). 

 



MacCann 117 

Appendix: Recommendations for designing accessible 
learning materials 
 
 Recommendation Student group 
1. Disk All material should be available on 

disk. 
All learners, particularly 
with vision impairment or 
physical disabilities and 
specific learning 
disabilities. 
 

2. Language 
use 

All text should be written in plain 
English. Consider giving practice in 
the use of technical language in the 
self assessment activities. Also, 
consider language appropriate to the 
purpose: different registers are 
acceptable for different purposes. Use 
key and go words to highlight 
important concepts and navigate 
through materials. 
 

All learners, particularly 
learners with reading 
difficulties, such as NESB 
(English as a second 
language), specific reading 
disability. Aboriginal 
learners or those with 
intellectual disabilities and 
hearing impairment. 

3. Assessment Consider how outcomes are 
measured: can the broadest range of 
students achieve them or does the 
assessment criterion need to be 
changed? Consider oral work as well 
as written. Also acknowledge 
collaborative learning as well as 
competitive: it's not cheating. Provide 
alternative options, to cater for 
different learning styles and 
restrictions (prisoners physical 
disabilities). 

All learners, particularly 
learners with reading 
difficulties, such as NESB, 
specific reading disability, 
Aboriginal, prisoners, or 
learners with physical 
disabilities or vision 
impairment. 
This may help the isolating 
effects of any disability. 

The first assignment should not be too 
difficult, and preferably not receive a 
mark or be part of the final mark for 
the subject/module. 

All learners, particularly 
learners with reading 
difficulties, Aboriginal, 
prisoners, NESB, or 
learners with intellectual 
disabilities. 
 

4. Print 
material 
design 

Text font, style and size 
Font size should be 12, including 
tables, and font style and size should 
be consistent. Use broad fonts (eg 
Ariel, Helvetica or Universal) rather 
than narrower ones. 
 

All learners, particularly 
learners with vision 
impairment. 

An overview of the learning should 
be given either in decision trees, 
concept or mental maps, flow charts 
(but remember some learners have 
difficulty with graphics, so these 

All learners, particularly 
learners with learning 
difficulties, physical or 
neurological disabilities 
and NESB learners. 



118 Australian Journal of Educational Technology, 1996, 12(2) 

 

should not be stand alone). Make sure 
the content is in small chunks. Ensure 
the structure of the materials is clear. 
 
Use lots of graphics and diagrams, 
however text should be able to stand 
alone (don't use only a diagram to 
explain a concept: use text and the 
diagram). If the diagram is essential, 
simplify so it can be generated as a 
raised line drawing. 
 

Aboriginal, NESB and 
learners with reading 
difficulties, those with 
neurological disabilities or 
vision impairment. 

Where activities or assignments 
require students to (for instance) walk 
around a block of houses, or to have a 
look at a library, a ground plan 
should be provided (for example, a 
typical library ground plan) for 
students who have difficulty. 
 

Geographically isolated, 
prisoners, learners with 
physical or vision 
impairment. 

Navigation through the materials 
should be considered: flag learning 
objectives/outcomes so learners can 
easily find them; cut down on 
referring backwards and forwards 
through the materials where possible. 
 

All learners, particularly 
NESB, those with 
neurological disabilities or 
vision impairment. 

Background information given, where 
referred to, as learners with hearing 
impairment miss information from 
radio and TV which doesn't have 
subtitles, and literacy learners miss 
written information. 
 

All learners, particularly 
literacy, hearing and 
neurological disabilities. 
This can help develop a 
contextual 'map'. 

Reading for understanding: make 
sure that understanding of the print 
explanation is checked. Learners with 
literacy gaps or hearing impairment 
tend to assume they have understood, 
but may not learn in sufficient depth. 
Learners may also be unwilling to 
admit they have not understood. 
 

All learners, particularly 
with reading difficulties, 
hearing and neurological 
disabilities. 

Simplify content and repeat in 
different ways, but make sure the 
repetition does not become boring for 
those who understand it the first time. 
State the concept, give information on 
how to learn it, then give the 
conclusion, stating the concept again. 
Consider emphasising the structure 
graphically, using different section 
headings to text. 

Learners with learning or 
neurological disabilities or 
those with hearing 
impairment. 



MacCann 119 

Use cues to assist the student in 
recognising and using the structure. 
Use summaries at regular points 
throughout a topic, preferably in 
different ways to the text: diagram, 
flow chart, table. Give positive and 
negative examples to illustrate what 
does and does not belong to a 
concept, for instance democracy. 
 

All learners, particularly 
those with learning and 
neurological disabilities. 

5. Video Use videos as supplements rather 
than to replace parts of the course. 
Remember that videos are linear and 
it's difficult to revisit sections, so 
prepare questions beforehand and 
revise key concepts after viewing. 
 

All learners, particularly 
those with vision 
impairment. 

Subtitles are better than signing, as 
more people with hearing impairment 
can understand them: ensure all 
essential videos are subtitled. 
 

Learners with hearing 
impairment. 

6. Audiotapes Make sure the voice is deep and slow, 
but don't use male voices only. Use as 
alternate presentation of content to 
print. 
 

Learners with hearing 
impairment, or vision 
impairment learners with 
neurological disability. 

7. Computers Learners with intellectual disabilities 
learn better with computers. They 
find them motivating. The 
information is limited by what's on 
the screen. They may feel safer 
because they can go back and retrieve 
information. Multimedia on computer 
also taps several modalities at once. 
 

Learners with learning or 
neurological disabilities 

8. Learning to 
learn 

Learning skills should be taught as 
part of the content in the subject. 
Some students need basic bridging 
skills to acquire content in particular 
subject areas. 

All learners, particularly 
NESB, Aboriginals, those 
with reading disabilities, 
neurological, or learning 
disabilities or hearing 
impairment. 

 



120 Australian Journal of Educational Technology, 1996, 12(2) 

 

Acknowledgments 
 
I would like to acknowledge the assistance of the following OTEN staff: 
Sue Clilverd, Educational Operations Manager 
Merren Dargan, Teacher/Consultant, vision impairments 
Pam Jackson. Aboriginal Development Manager 
Marea Jordan Watt, Teacher/Consultant, physical disabilities 
David King, Teacher/Consultant, physical disabilities 
Wendy McLachlan, Teacher/Consultant, neurological disabilities 
Aida Tabet, Multicultural Education Coordinator 
Debbie Trevan, Teacher/Consultant, intellectual and learning disabilities 
Andrew Young, Teacher/Consultant, hearing impairment 
Andrew Downie, Teacher/Consultant, Adaptive Technology 
Daphne Gonzalvez, Instructional Designer 
Gail Sawle, Teacher, ESOL 
 

Ann MacCann is an Instructional Designer in ETRC, Open Training and 
Education Network, Sydney, NSW. 
 
Please cite as: MacCann, A. (1996). Designing accessible learning materials 
for learners with disabilities and learning difficulties. Australian Journal of 
Educational Technology, 12(2), 109-120. 
http://www.ascilite.org.au/ajet/ajet12/maccann.html