agostinho.pdf


Australasian Journal of
Educational Technology

2011, 27(6), 961-978

The use of a visual learning design representation to
support the design process of teaching in higher

education
Shirley Agostinho

University of Wollongong

Over the last decade there has been considerable research and development work
exploring how university teachers can document their teaching practice in such a way
as to enable the sharing of ideas. The premise of this research work, referred to in the
literature as learning designs, is if pedagogical practice can be documented in some
readily understandable form, it can then be easily shared and thus there is the
potential for greater uptake of innovative teaching practice. This paper presents
findings from a research project that examined how educational designers and
teaching academics used a visual learning design representation to document their
teaching practice and how this representation supported their design process. Six
educational designers, three university teachers, and two PhD students (whose
doctorates were focused on learning design) were interviewed and the main finding
was that the visual representation served as an aid to design because it provided a
summary of pedagogical practice that could be used to effectively communicate and
share ideas, and also enable reflection. The paper concludes by suggesting future
research directions.

Introduction
The higher education sector has experienced a shift towards offering students more
flexible learning opportunities through the use of information and communication
technology (ICT). The use of ICT in university course offerings is becoming
mainstream and with this, teachers are faced with the ongoing challenge of designing
pedagogically sound learning experiences for their students that effectively integrate
ICT. This context has been the catalyst for research and development work focused on
how academics can be supported to design learning environments that effectively
integrate ICT. A key argument in this research work is that the existing ways of
representing and disseminating pedagogical practice and guidance needs
improvement as many current forms of guidance may not be easily accessible. For
example, Goodyear (2005) and Sharpe, Beethham and Ravenscroft (2004) have argued
that conventional channels of dissemination, which are mostly text-based genres such
as principles explained in books and case studies and research findings reported in
journal and conference publications, do not go far enough in terms of explicating how
research-based evidence of pedagogical theory can be translated into pedagogical
practice. They have called for a representation of design knowledge that bridges this
gap, that is, a representation that could be more accessible and usable by academics.

Another aspect of this discourse is the call for standardisation in documenting
teaching practice in higher education - similar to that of the ‘lesson plan’ construct



962 Australasian Journal of Educational Technology, 2011, 27(6)

adopted by teachers in the primary and secondary school contexts. It has been argued
that a design language and/or notation system for educational design is needed,
similar to that found in other disciplines such as music and dance, to provide a
common language that will allow better communication of ideas, and in turn could
serve as a stimulus to improve the quality of teaching and learning (Gibbons &
Brewer, 2005; Seo & Gibbons, 2003; and Waters & Gibbons, 2004).

Over the last ten years, the concept of learning designs has evolved as a strategy
towards a common language to serve as an accessible and usable form of guidance for
university teachers (Lockyer, Bennett, Agostinho & Harper, 2009). Learning design can
be considered as either a process of designing learning experiences (Conole, 2009) or a
documented outcome of the design process (Agostinho, 2009). The definition for
learning design adopted in this paper is a representation of teaching and learning
practice documented in some notational form.

A learning design could be used as a way to share and model expert practice. For
example, a teacher could refer to another teacher’s learning design as an example or
case of expert practice to gain ideas on how to design a ‘high quality’ learning
environment. Teachers could also use a learning design representation to document
their own teaching practice for the purpose of describing, discussing and reflecting on
their educational design.

What constitutes a learning design and how it ought to be described is a current
research focus (Neumann, Oberhuemer & Derntl, 2009). Large scale research and
development projects have devised different learning design representations, for
example:

• IMS Learning Design Best Practice and Implementation Guide Version 1.0 Final
Specification, 2003, http://www.imsglobal.org/;

• LAMS http://www.lamsinternational.com/;
• Learning Designs project http://www.learningdesigns.uow.edu.au, and
• The Pedagogical Patterns project http://www.pedagogicalpatterns.org/

There have also been research projects that have explored the challenges of describing
practice (Falconer, Finlay & Fincher, 2011). What is needed to contribute to this
research and development work is more empirical studies that examine how particular
learning design representations are being used by teachers and how they can affect the
design process. This paper presents findings from a research project that examined
how academics used a visual learning design representation to document their
teaching practice and how such a representation influenced their design process.

Learning design representations

Several learning design representations have emerged over the last decade and those
featured in recent research work include:

• E2ML: Educational Environment Modeling Language (E2ML) (Botturi, 2006) represents
a learning design as a structured set of activities aimed towards achieving a set of
defined learning outcomes. It was developed to enhance communication within e-
learning project teams.



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• IMS LD: IMS Learning Design (IMS Learning Design Best Practice and
Implementation Guide Version 1.0 Final Specification, 2003) represents a learning
design as a sequence of activities described in the form of acts in a play (referred to
as a “unit of learning”). It is documented in a computer readable format (an XML
file) and its purpose is to offer technical interoperability.

• LAMS: Learning Activity Management System (LAMS)
(http://www.lamsinternational.com/) is a software application that allows a
teacher to both design and implement online learning activities using a visual
authoring environment. The learning design is visually represented in a flow-chat
as a sequence of activities, which are represented in the form of the online tools
used to run each activity.

• LDVS: The Learning Design Visual Sequence (Agostinho, Harper, Oliver, Hedberg &
Wills, 2008) documents a learning design in a visual way by illustrating the
chronology of tasks, resources and supports using symbols for each of the three
learning design elements (squares/rectangles for tasks, triangles for resources and
circles for supports). A time period for the learning design and intended learning
outcomes are also included.

• LDLite: LDLite (Falconer, Beetham, Oliver, Lockyer & Littlejohn, 2007; Oliver &
Littlejohn, 2006) documents a learning design in a tabular form and is based on five
key elements of IMS LD: tutor roles, student roles, content resources, service
resources and assessment/feedback. It is used to help teachers design blended
activities, that is, integrate face-to-face and online activities.

• Patterns: A pattern can be considered as an overall  “rule of thumb” (McAndrew &
Goodyear, 2007). The learning design is represented as a series of text-based
paragraphs containing information such as: context for the pattern, description of
the problem, solution, example, and link(s) to other patterns. The way patterns can
link to other patterns to form sets is referred to as a pattern language. The purpose
of a pattern language “is not to present an exact algorithm that generates a design
specification in accordance with a given instructional environment, but to explain
and teach about good design” (Voigt, 2010, p. 107). Thus patterns can offer
guidance and the interconnectedness of patterns via a pattern language enable
guidance to be offered at various levels of specificity.

Each of these learning design representations document a learning design in a
different way and it can serve different purposes. For example, patterns aim to
disseminate design knowledge (Voigt, 2010) whereas the purpose of E2ML and IMS-
LD is to document a contextualised learning design, thus they provide specificity and
logistical detail of a learning design.

Whilst there has been considerable research work in the development of these
representations there are calls for more empirical studies that examine how teachers
and/or educational designers are actually using these learning design representations.
For example, Frizell and Hübscher (2009) and Garzotto and Retalis (2009) have argued
for more research on design patterns to gain a better insight on user experiences and
how design patterns can affect the design process. Some work that has reported on
teacher experiences with various learning design representations includes:



964 Australasian Journal of Educational Technology, 2011, 27(6)

• Hazelwood, Oddie and Barrett-Baxendale (2009) reported practitioner use about
creating IMS-LD units of learning and how IMS-LD units of learning work with
learners.

• Frizell and Hübscher (2009) and Garzotto and Retalis (2009) explain how design
patterns can and are being used in education particularly for e-elearning.

• Bennett, Agostinho and Lockyer (2005) reported on a case study about teachers
reusing learning designs from the Learning Designs project.

• Falconer and Littlejohn (2006) reported on a UK JISC funded project – MOD4L
where teacher participants reviewed three learning design representations (LDLite,
LDVS, and Patterns) and provided their opinions about the perceived usefulness of
these representations.

• Neumann, Oberhuemer and Derntl (2009) have presented a position paper on how
graphical representations may support the use and uptake of IMS-LD.

This paper presents an empirical study on how the LDVS has been used by eleven
participants in the university context. Some historical background and detailed
description of the LDVS is provided below followed by the methodology of the study.

Figure 1: Example of a LDVS taken from the Learning Designs project
(Herrington & Oliver, 2002). See

http://www.learningdesigns.uow.edu.au/exemplars/info/LD20/more/03Context.html

The LDVS was developed from an Australian nationally funded project that focused
on producing innovative reusable learning designs (Agostinho et al. 2008). The LDVS
illustrates tasks students are required to undertake, content resources provided to



Agostinho 965

assist students to complete the tasks and supports provided by the teacher. On the
project web site (http://www.learningdesigns.uow.edu.au/), the LDVS is
accompanied with detailed textual information that explains the tasks, resources and
supports in detail and guidance is provided on how the learning design can be
implemented. Figure 1 shows an example of a LDVS.

Figure 1 represents a learning design implemented in a course focused on online
learning and teaching. The course consists of three assessable tasks (indicated with an
asterisk, *) that students are required to complete within a 14-week time frame. The
overall pedagogical design of this learning design is problem based as students need to
firstly examine an online learning example (first task rectangle), which is provided as
resources (first resource triangle) to identify key characteristics, then they need to
describe the key characteristics by articulating them in the form on an online learning
model (first task rectangle and a documented artefact – second resource triangle) and
thirdly they then apply their devised model to produce their own online learning
environment (third task rectangle). The teacher supports students during this process
by providing specific feedback via email, providing online discussion opportunities for
students (first support circle) and encouraging them to work together (second support
circle).  Horizontal arrows are used to illustrate the connection between tasks and
resources and tasks and supports. Vertical arrows are used to link the tasks and also
indicate when the same resource or support is provided for subsequent tasks (see first
resource triangle and first support circle).

Methodology

Data was collected through semi-structured, in depth interviews with 11 participants
from four Australian universities: The University of Wollongong (8), The University of
Sydney (1), Queensland University of Technology (1) and University of Canberra (1).
Six participants were learning/educational designers working in central support units
within their university institution, three were teaching academics within an education
faculty, and two were doctoral students in an education faculty that were involved in
individual projects that used the LDVS.

Participants were purposefully selected. The researcher (from her involvement in the
development of the LDVS) initially identified eight participants who were using the
LDVS in their work context. They were contacted via email to invite participation in
this study and all agreed to participate. The participants were asked if they knew of
other colleagues who were using the LDVS or accessing the project web site and a
further three participants were recruited.

One semi-structured interview was conducted with each participant during 2006,
either face to face or via telephone. The interview duration ranged from 40 to 90
minutes. Each interview was recorded and transcribed and the transcription was sent
to each participant for review. Five participants also provided examples of the LDVS
diagrams they had developed. The interview was structured into three sections and
the following key questions were asked:

1. Participant profile: What is your work role? How did you know about the Learning
Design project?

2. Context of use: Why have you accessed the Learning Designs project web site? How
have you used the LDVS?



966 Australasian Journal of Educational Technology, 2011, 27(6)

3. Assessment of usefulness: What do you think are the main strengths and weaknesses
of the LDVS? Do you think the LDVS provides a useful summary of a learning
design? What suggestions would you recommend to improve the LDVS?

The interviews were initially reviewed using a data analysis technique referred to as
“skimming the cream” (Smith, 1978) where the researcher brainstormed the dominant
themes emerging from the interviews. An in-depth analysis was then undertaken
where the data was analysed according to the overall structure of the interviews. Each
idea in the interview transcription (be it a sentence or paragraph) was coded. Themes
were then categorised in order of dominance. The findings from the more in-depth
analysis were then triangulated with the initial data analysis to determine if the
preliminary findings corroborated with the more in-depth analysis. The preliminary
findings were overall consistent with the findings from the in-depth analysis. The
results are presented below according to the structure of the interview. Pseudonyms
have been used to maintain anonymity of participants.

Results
Participant profile

Participants knew about the Learning Designs project by either direct involvement in
the project (5), being made aware of the project web site by colleagues (5), or hearing
about the project at a conference (1). Table 1 provides a summary of each participant’s
profile.

Table 1: Participant profile
Participant

(pseudonym) Work role University
How they knew about the
Learning Design Project

Catherine Learning/Educational
designer

University of
Wollongong

Recommended by colleagues

Jennifer Teaching academic University of
Wollongong

Involved in Learning Designs
project

Kate Learning/Educational
designer

University of Sydney Involved in Learning Designs
project

Linda Teaching academic University of
Wollongong

Involved in Learning Designs
project

Lorraine Teaching academic University of
Wollongong

Involved in Learning Designs
project

Narrell Education doctoral
student

University of
Wollongong

Recommended by supervisors

Paul Learning/Educational
designer

University of Canberra Heard about it at a conference

Rachel Learning/Educational
designer

Queensland University
of Technology

Recommended by colleagues

Samantha Learning/Educational
designer

University of
Wollongong

Involved in Learning Designs
project

Stephanie Learning/Educational
designer

University of
Wollongong

Recommended by colleagues

Warren Education doctoral
student

University of
Wollongong

Recommended by supervisors

When participants were asked why they accessed the Learning Design project web
site, all responded that the web site provided a source of teaching and learning
examples documented in a useful and accessible way. An indicative comment was:



Agostinho 967

The thing that interests me most about it is the idea that an academic without great
expertise in a particular teaching and learning strategy could come to the website, find
something that suited them and their class and be able to adapt that from an exemplar
that’s already there. (Linda)

Context of use

Eight of the 11 participants had produced their own LDVS within their work context.
Upon discussing with the participants how closely they had applied the LDVS
notation system and reviewing supplied examples of LDVS diagrams, it was found
that whilst all eight participants had adopted the general principles of the notation
system (as illustrated in Figure 1), five had created their own diagrammatic variations.
Of these five, two participants made minor modifications and three participants made
significant modifications to the LDVS notation system.

Minor modifications (made by Stephanie and Samantha) involved not including
learning outcomes and a time line on their diagrams. Stephanie also used a different
symbol to represent resources (clouds instead of triangles) so that the text would fit
inside the symbol. Major modifications to the LDVS notation system (made by
Catherine, Lorraine and Rachel) involved the following:

• Catherine produced a LDVS that illustrated the tasks, resources and supports in a
horizontal format rather than in a vertical sequence. Use of arrows was excluded
and the time line was provided at the bottom on the diagram. (See Figure 2.)

Figure 2: Example of Catherine’s LDVS



968 Australasian Journal of Educational Technology, 2011, 27(6)

• Lorraine used lines instead of arrows to link the resources and supports symbols to
the respective task rectangles. Multiple supports for one task were represented as
clustered circles (that is, circles that overlapped each other). A time line and
learning outcomes were excluded. (See Figure 3.)

Figure 3: Example of Lorraine’s LDVS

• Rachel included an additional support column to the LDVS to represent the
support provided to tutors when implementing her learning design. (See Figure 4.)

Three of the 11 participants (Jennifer, Kate and Paul) had not specifically drawn their
own LDVS. Instead, Jennifer and Paul had applied the overall learning design
components of  tasks, resources, and supports (Oliver & Herrington, 2001) when
designing their teaching. Jennifer explained that she applied the model in a textual
tabular form when designing tasks in her subjects. She explained that she would
produce a table with five columns: the first column provided the rationale for the task,
the second column described the task as it would be presented to students, the third
and fourth columns explained the resources to be provided to students – ones
specifically related to the task and ones that are more general, and the last column
detailed how she, the teacher, would support her students. Paul said that the tasks,
resources, and supports learning design model helped him to focus on the tasks rather
than on the content (resources) when designing a course/subject. In his role as an
educational designer he demonstrates the Learning Design project web site to staff as a
useful resource.

Kate explained she often referred to the Learning Designs project web site for ideas
and suggested it as a useful resource to colleagues. Whilst she thought that the overall
Learning design models of tasks, resources and supports was a “nice way of thinking
through  the  different  things  that  you  need  in  a   Learning   Design”,  she   had   not



Agostinho 969

Figure 4: Example of Rachel’s LSVS

specifically applied these concepts. Instead she used her own diagram to discuss ideas
with clients. Upon review of her diagram, it was similar to the LDVS in that the focus
was on the student tasks and their sequence, but resources and supports were not
explicitly illustrated.

From the ten participants who had either created their own LDVS or applied the
overall learning design model of tasks, resources and supports, three themes surfaced as
to the purpose for using the LDVS:

• A documentation tool to summarise and communicate a learning design
implemented in a course/ subject.

• A tool used during the design process of a course/ subject/ activity to
communicate and discuss pedagogical ideas.

• An analysis tool to reflect on a learning design implementation within a course/
subject.

Each of these three themes is further explained below.

Documentation tool

Of the eight participants who had created their own LDVS, their purpose for using the
LDVS notation system was as a documentation tool for the following reasons:

• To facilitate communication amongst colleagues. For example, Linda explained: “It
became a way for my colleague… and I to jointly work on something to really



970 Australasian Journal of Educational Technology, 2011, 27(6)

understand a design. So we used that as a language and a means to express what
we were coming up with…. We just put in a paper to [journal name] and we used
that formalism to represent our design”.

• To clearly articulate a learning design in an academic publication. For example,
Stephanie explained: “I did a project with a client… and we wrote the outcome up
as a paper and I suggested that a diagram is always good for a paper”.

• To facilitate dissemination and uptake of learning designs. For example, Stephanie
thought the way the LDVS presents a summary of a learning design was
particularly useful for dissemination:  “generally what I find in a dissemination
environment is it’s better to give less and let people ask questions.” Linda had used
the LDVS to help other academics apply a new teaching strategy: “So taking
problem based learning, looking at what models there were of problem based
learning and… discussing around the graphical model, and that’s I think easy to do
because it’s very accessible compared to a lot of text”.

• To document the evolution of a learning design by creating iterative versions of
LDVS, or to show the contrast of learning designs for comparison. For example,
Lorraine noted: “I’ve used it for describing the [name of project] and showing how
that has translated over time in terms of the actual design of the educational
program. So I find that for me it’s a good way of communicating to someone what a
design is”.

• For post-project documentation. Samantha’s intention of a future project was to
create an online repository of learning designs focused on a particular pedagogical
strategy and thus thought the LDVS was a suitable way to document these learning
designs.

Design tool

As mentioned previously, two participants, Jennifer and Paul, used the learning design
model of tasks, resources, and supports as a personal design tool when planning tasks in
their subjects/ courses. Of the eight who had created their own LDVS, four
participants (Lorraine, Stephanie, Rachel and Warren) used the LDVS as a design tool
to either help them think through a learning design or use it to facilitate dialogue and
communication between themselves and their clients. For example, Stephanie and
Rachel, who were learning/educational designers, used their LDVSs to focus their
discussions with clients. Rachel explained that she used the LDVS as a “talking point”
with her client:

To give them an overall picture of what we’re talking about.  I think with each client I
usually use a visual representation… and I’ve found that so far it has been useful… it
sort of teases apart our conversation, particularly to get the client to start thinking
about what the learners are actually doing.

Stephanie used her LDVS diagrams in a similar manner as to Rachel:

You actually sit down at the first meeting and just start with this diagram and say,
hello I’m using this diagram here because I need to understand your subject and your
teaching and your needs, and any issues that you have. So if you don’t mind I’d just
like to start going through all these things.



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Warren found the LDVS a useful design tool when working on a project where he had
to design web-based templates: “I was employed to… help design a few templates...
and it worked … very, very well.”

Analysis and reflection tool

Three participants used the LDVS as an analysis or reflection tool to help them check
their own understanding of a learning design. For example, Lorraine noted: “It’s
helpful for me to understand learning environments particularly that I’ve constructed
… it also helps me check what I understand to be the design because I can look at the
elements and see if anything is missing”.

Stephanie explained it was not a trivial task to produce the LDVS diagram: “it takes a
lot of your brain space to really work through it”. Catherine thought the LDVS was
particularly helpful as an analysis and reflection tool that can be adjusted or modified
relatively easily to answer 'what if' type questions during subject re-design.

Table 2 presents a summary of the ten participants that had created their own LDVS or
applied the overall learning design model of tasks, resources and supports, in terms of its
purpose for use, and how they complied with the LDVS notation system.

Table 2: Summary of 10 participants and how they used the LDVS

Name Created ownLDVS? Variations made to the LDVS notation system Purpose for use
Catherine Yes - Horizontal rather than vertical sequence

- Arrows excluded
- Time line provided at bottom of diagram

Analysis and
reflection tool

Jennifer No Used the learning design construct of tasks,
resources and supports in a table with five columns:
- Column 1: Task rationale
- Column 2: Task description
- Column 3: Resources specific to task
- Column 4: General resources provided
- Column 5: Support provided by teacher

Design tool

Linda Yes Complied with LDVS notation system Documentation tool
Lorraine Yes - Excluded time line and learning outcomes

- Used lines instead of arrows to link resources
and supports to respective tasks

- Multiple supports for one task presented as
overlapping circles

Documentation,
analysis and
reflection tool

Narrell Yes Complied with LDVS notation system Documentation tool
Paul No Used the learning design construct of tasks,

resources and supports to focus on tasks rather than
content when designing a course/subject

Design tool

Rachel Yes Added another support column on right of LDVS
to represent support required by tutors during
implementation.

Documentation and
design tool

Samantha Yes Excluded time line and learning outcomes Documentation tool
Stephanie Yes - Excluded time line and learning outcomes

- Used a ‘cloud’ symbol to represent resources
(instead of triangles)

Documentation,
design, analysis
and reflection tool

Warren Yes Complied with LDVS notation system Documentation and
design tool



972 Australasian Journal of Educational Technology, 2011, 27(6)

Three participants, Catherine, Samantha, and Stephanie had used the LDVS in
conjunction with other documentation tools to help them better understand, interpret
or compare a learning design. For example, in her client meetings, Stephanie
accompanied a LDVS she had created with the subject/course outline. Samantha
mentioned that she had produced a comparison matrix of similar learning designs to
help her compare and contrast several learning designs. Catherine thought that the use
of multiple documentation tools added a dimension of richness thus aiding the
comprehension of a learning design.

Assessment of usefulness

Overall, all participants (regardless of whether they created their own LDVS or not)
thought that the LDVS was useful to document and communicate teaching and
learning ideas with others. The visual feature of the LDVS was viewed as its main
strength. Other strengths in order of dominance were its structure, simplicity and
adaptability. These are discussed as follows.

Visual feature: Ten of the 11 participants thought the visual feature of the LDVS was its
main strength. The graphical aspect assisted the understanding of a learning design as
it provided an overall summary or snapshot. For example, Narrell commented, “you
can show a complete… unit for work, in sort of one space.” Several respondents said
the LDVS took the mystery out of a learning design as it showed the key elements. For
example, Linda noted that the LDVS “allows you to very quickly understand what the
scope and sequence of the learning design is”.  Paul was the only participant that
didn’t comment on the visual feature. Instead he thought the strength of tasks,
resources, and supports learning design model was that “it’s a model that if you follow
it, it’s going to lead to a richer learning environment”.

Structure: Four participants (Linda, Rachel, Samantha, and Stephanie) thought that
how the LDVS illustrated the sequence or chronology of tasks helped them understand
the mechanics of how to implement a learning design. Rachel, for example,
commented that the LDVS allowed her to “see the whole process… it breaks it down
into bite sized chunks so it’s not so overwhelming”. Linda explained that the LDVS
can help illustrate to a teacher/designer how a particular pedagogical approach (e.g.
problem based learning and authentic learning, etc.) can be operationalised.

Simplicity: Three participants (Jennifer, Lorraine and Warren) explicitly commented
that the LDVS was simple to understand and use. Lorraine commented that it was a
simple formalism that required little training for someone to understand and use it.
She also noted that a LDVS is quick to review thus offers an element of efficiency: “I
don’t think that designers or teachers always necessarily have the time to read dense
case studies of other people’s work and then try to translate it into their own
situation”. Warren provided the following summation: “It’s simple, it’s clear, it’s
concise and it works”.

Adaptability: Three respondents, Stephanie, Linda, and Rachel mentioned that the
LDVS could be easily adapted to suit one’s needs. Stephanie adapted the LDVS to suit
the needs of clients. For example, for one client, instead of using the terms ‘tasks’ and
‘supports’ on her LDVS she used ‘partnership tasks’ and ‘community engagement’
respectively to better suit her client’s learning design. Linda thought that the LDVS can
provide teachers with guidance but it is “not rigid, it’s not like a recipe”.



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In terms of weaknesses of limitations of the LDVS, three issues surfaced: i) ambiguity
of what is a ‘resource’ and ‘support’, ii) diagram can become complicated, and iii)
there is little instruction on how it works. Each of these weaknesses is discussed in
turn.

Ambiguity of ‘resource’ and ‘support’
A limitation of the LDVS that six participants (Catherine, Kate, Linda, Lorraine,
Narrell, and Stephanie) noted was the lack of clarity over what constituted a
“resource” and a “support”. Narrell said: “The only thing I struggled with a little bit
was the differences between the resources and the supports”. For example, a support
was considered as something the teacher provides to help students. But if a teacher
were to provide students with support through the provision of a template, or pro-
forma to help students complete a task, it was not clear whether that remains a support
or becomes a resource. Linda explained that this was the main weakness of the LDVS
in terms of it serving as a notation system because “the whole point is that we all
understand the basis of it. There shouldn’t be ambiguity about it.  So I think that’s one
thing that could be really clarified and some work needs to be done on it”.

Diagram can become complicated
Four participants thought that the LDVS diagram could become complicated,
especially, as Warren noted, if there are iterative tasks. Lorraine also raised this
concern and noted that linear nature of the LDVS, which was deemed a strength, could
be a potential weakness: “the linear nature may be an issue in that if you want to
describe a non-linear sequence it could get messy”. Catherine and Jan thought there
was not enough room to include all the tasks, namely the non-assessable tasks in a
LDVS. Catherine discussed this as an issue of granularity and suggested that if an
assessable task was complex, it could be documented as multiple LDVS diagrams.
Jennifer explained that was the reason she opted for using a table format instead:
“there’s not enough room there to have a complex task.  You can only summarise it
there, so that’s why I then go to the tables”.

Little instruction on how it works
Linda and Warren commented that the LDVS was not well known (thus not widely
used) and there was little instruction on how a LDVS can be created. The eight
participants who produced their own LDVS learned how to interpret and create a
LDVS either through their involvement in the AUTC learning design project (3),
examining the AUTC project web site and discussing the LDVS formalism with
colleagues (3), or through self-study (2).

The following list summarises suggestions for improvement of the LDVS as a learning
design representation:

• Remove the ambiguity between a ‘resource’ and ‘support’. This could be achieved
by publishing how the LDVS works, which would include providing a clear
definition and examples of resources and supports.

• List the intended learning outcomes and a summary statement of the rationale for
the tasks at the top of the diagram, to set the context of the learning design.

• Distinguish between critical and optional tasks, resources and supports.
• Add an additional support column to explain how a teacher can be supported

when implementing the learning design.



974 Australasian Journal of Educational Technology, 2011, 27(6)

Discussion
The results from this study suggest that the LDVS can be a useful tool to support the
design process. The visual feature of the LDVS was considered its biggest strength.
The ability to illustrate a summary or snapshot of a learning design aided participants’
ability to understand a learning design. The learning design components of tasks,
resources, and supports, provided a useful framework for participants to focus on the
key aspects of a learning design thus enabling them to check if anything was missing.
Most found it a useful framework to help them think about a learning design. Overall,
participants found the LDVS simple to use and understand and were able to adapt it to
suit their work context.

The main limitation of this learning design representation was the ambiguity over the
definition of a resource and support. This was considered an impediment of this
learning design representation as a standard notation system. Similar findings about
the visual strength of the LDVS and its limitation in terms of ambiguity over resources
and supports have been reported in other studies (Falconer et al, 2007). The removal of
ambiguity between a resource and support was the main suggestion for improvement
offered by participants. Other limitations noted were that the diagram can become
complicated and there was little published about how the LDVS works. Interestingly,
apart from several suggestions for improvement, participants did not think there were
any fundamental aspects missing from the LDVS notation system.

Given that some participants used the LDVS in conjunction with other documentation
methods or tools and that the LDVS is one of several existing learning design
representations, reinforces the idea that it may not be possible nor feasible to develop
an all-encompassing, standardised notation system to document a learning design.
Instead, there is a realisation that describing practice is a complex and challenging
endeavour and having multiple forms of representing practice, referred to as
mediating artefacts (Conole, 2009; Falconer et al, 2011) or mediating representations
(Falconer, 2007) may be helpful for teachers to support their design thinking. The
different representations may also enhance communication and understanding of
pedagogical ideas amongst teachers (Falconer, 2007). A current area of research and
development work is focused on exploring how the learning design concept can be
manifested into online design support tools for use by university teachers, to help
them with the design of their teaching. Examples of key projects include: the London
Pedagogy Planner project, the Phoebe project, and an example of a new tool currently
under development is Learning Design Support Environment (see Masterman & Manton,
2011 for a detailed explanation).

Referring back to the LDVS representation, since the completion of this research
project, there is further evidence that the LDVS is being used to document teaching
practice. For example, Hoban (2009) presented a LDVS to explain a Slowmation
learning design, McLaughlan and Kirkpatrick (2009) have documented their role-play
learning design using the LDVS notation system, Cooner (2010) has depicted a
technology-enhanced blended learning design as a LDVS, and Kearney (2011) has
illustrated a digital storytelling learning design using an elaborated form of the LDVS.
There are also several projects that have incorporated the LDVS as an aid to
disseminate and communicate pedagogical ideas. For example, educational designers
at the University of Wollongong are using the LDVS as a tool to document and
facilitate discussion amongst a teaching team in the development of a university
subject (see SlideShare presentation http://www.slideshare.net/wendyuow/math-



Agostinho 975

symp-2010). Elliott, Boin, Irvin, Johnson & Galea (2010) have used the LDVS to
document innovative cases about teaching scientific inquiry skills (see example on
project web site: http://www.scientificinquiry.meu.unimelb.edu.au/identification/
cases.html).

This research study has given some insight into how teaching academics and
educational designers can use mediating artefacts such as the LDVS to aid their design
process, but its limitation was that participants reported their experience
retrospectively. What would provide further insight is to observe teachers in the actual
process of design to capture a richer understanding of how such support tools could
be used. A recent study that tracked university teachers’ use of learning designs
(documented using the LDVS) to support their design thinking and process is Jones
(2011, 2009). This doctoral study examined the design process of nine academic
teachers who selected an existing learning design, adapted it and implemented it their
own teaching context. Preliminary findings suggest that the use of documented
learning designs can be a useful support for design.

Furthermore, there is little known about how university teachers engage in the broad
activity of design (Goodyear, 2005). This is important to know so that we can better
understand the contribution that describing practice through the use of a learning
design can make to the design process. Findings from recent research is emerging (eg.,
Bennett et al, 2011; Kali, Goodyear & Markauskaite, 2011) which will further
understanding about how university teachers design.

Conclusion

This paper has reported the findings of a study that examined how academics used a
visual learning design representation (LDVS) to document teaching practice and in so
doing how it supported their design process. Eleven participants from across four
Australian universities were interviewed about their experience in using the LDVS.
This study showed evidence that the visual representation served as an aid to design
because it provided a summary of pedagogical practice that could be easily
understood. The relative simplicity of the representation, its adaptability and overall
structure made the LDVS easy to use and enabled teachers to effectively communicate
and share their ideas as well as reflect on their designs. Whilst it is important to
continue to monitor the uptake of the LDVS as a learning design representation, future
research should also focus on exploring how university teachers engage in design so as
to better understand how documenting teaching practice via learning design
representations can best support the design process.

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Author: Dr Shirley Agostinho
Faculty of Education, Interdisciplinary Educational Research Institute
University of Wollongong, NSW 2522, Australia
Email: shirleya@uow.edu.au

Shirley Agostinho is a Senior Lecturer in educational technology in the Faculty of
Education at the University of Wollongong. Shirley’s research interest in learning
design spans ten years. She was a project manager and researcher for an Australian
nationally funded project that focused on producing innovative reusable learning
designs. She completed a Post-Doctoral Fellowship that examined how learning
objects could be integrated with learning designs when developing online learning
environments. She is currently involved in a number of projects investigating how the
learning design concept could be used as a support tool for teachers.

Please cite as: Agostinho, S. (2011). The use of a visual learning design representation
to support the design process of teaching in higher education. Australasian Journal of
Educational Technology, 27(6), 961-978.
http://www.ascilite.org.au/ajet/ajet27/agostinho.html