divaharan.pdf


Australasian Journal of
Educational Technology

2011, 27(Special issue, 8), 1304-1318

Walk the talk: Immersing pre-service teachers in the
learning of ICT tools for knowledge creation
Shanti Divaharan, Wei-Ying Lim and Seng-Chee Tan
Nanyang Technological University

This paper traces the evolution of the design framework for the use of technology in a
teacher education program in a Singaporean university. This course focuses on
developing student teachers’ capacity for the use of ICT in teaching and learning. We
report our two-level reflection: one that focuses on the trajectory of the course design,
and one that reflects on the university faculty’s pedagogical practices when
conducting this course. The goal of this course in the last decade has transformed from
a focus on technology skills to pedagogical and knowledge creation. The current goal
of the course is to develop student teachers’ pervasive use of technology tools to
collaborate, design, reflect and think critically. The challenge for the faculty in a
teacher education higher learning institute is to design a course that would present
opportunities for student teachers to experience the technology tools as learners
themselves so as to become teachers who will be doyens in designing technology tool
integrated learning. We contend that the experiences of technology tools help to
deepen the student teachers’ knowledge about technology integration. As student
teachers experience technology tools in tandem with theory, the immersive experience
may translate into designing apt technology-integrated lessons for their learners.

Introduction

This paper reports our journey on the use of information and communication
technology (ICT) to support teacher education in the Learning Sciences and
Technologies academic group, National Institute of Education (NIE), Nanyang
Technological University, Singapore. NIE is the official teacher education institute for
teachers across subject disciplines and across levels, from primary to junior college.
Since the 1980s, the use of ICT in education has been a compulsory course taken by
student teachers in NIE. This paper traces the evolution of this ICT course in its intent
and instructional approaches. It elucidates our trajectory in the last decade (2000-2010),
which can be broadly represented in three phases: a focus on developing student
teachers’ technology skills, a focus on developing student teachers’ competency in
designing technology-integrated lessons, and the current form that provides
opportunities to engage our student teachers in knowledge creation with Web 2.0
tools.

While there are researchers who lamented about the limited academic use of computer
technology in university (e.g., Selwyn, 2007), there are others who championed
innovative approaches to the use of ICT in higher education. For example, engaging
students in practice activities using laptops (Barak, Lipson & Lerman, 2006; Chompu-
Inwai & Doolen, 2006), course related software (Barak et al., 2006), and real world
projects (Kolar, Sabatini & Fink, 2002). Our journey in NIE is unique in two ways: the



Divaharan, Lim and Tan 1305

focus on pedagogical applications and the two-level reflection. Given that NIE is a
teacher education institute, our key focus has been on the pedagogical dimension of
ICT use. In addition, it is a two-level reflection because we need to develop in our
student teachers, necessary ICT pedagogical skills and knowledge, while at the same
time, reflect on and improve our own pedagogical practices with the use of ICT. In this
paper, we will first foreground the first level reflection, that is, how we design the ICT
course for our student teachers, including how we align the course to developments to
policy changes. Our second level reflection focuses on our own practices with ICT
applications, which change in tandem with technological advances and our gradual
shift from instructional design to learning sciences.

The ICT journey: Major milestones

Tracing the trajectory of ICT use in NIE, there were three significant milestones. Table
1 shows the changes in ICT use over a decade and the associated expected outcomes
for student teachers.

Table 1: Trajectory of NIE's ICT use over a decade

Focus on skills
(2000-2003)

Technology-integrated
lessons

(2004-2009)

Knowledge creation
with Web 2.0
(2010-current)

Expected stu-
dent teachers’
competencies

• microLESSONS
• Instructional design

• Learner-centred lesson
packages

• Knowledge of a suite
of tools

• Web 2.0
• Learner-centred lesson

ideas and artifacts

Tools used in
NIE

• Learning management
systems

• PowerPoint

• Learning management
systems

• Discussion board
• PowerPoint

• E-learning hub
• Learning management

systems
• Blogs
• Google Docs

Pedagogical
approach

• Lecture • Faculty modelling
• Lecture
• Collaborative learning
• Self-directed learning

• Reciprocal teaching
• Self-directed learning
• Faculty modelling
• Lecture
• Participative

The first milestone (2000-2003): Focus on skills

During this period of time, the prevalent teacher training approach focused on
technology skills (Galagan, 1999; Johnson, 1988; Rogers, 2000). ICT integration studies
(Dawson & Heinecke 2004; Jaber & Moore, 1999; Manternach-Wigans, 1999; Wetzel,
2001) revealed that teachers wanted access to computers and resources to enhance
their confidence through familiarity with relevant hardware and software, with the
assumption that planning to integrate computers into the classroom would naturally
ensue.

In addition, the goals of the local ICT policy permeate the curriculum. The first Master
Plan (mp1) for ICT in Education was instituted in 1997 and lasted till 2002. The four
goals of the plan were to (i) enhance linkages between school and the world around it;
(ii) generate innovative processes in education; (iii) enhance creative thinking, lifelong
learning and social responsibility; and (iv) promote administrative and management
excellence in the education system (MOE, 2011). Professional development in ICT



1306 Australasian Journal of Educational Technology, 2011, 27(Special issue, 8)

integration took the form of training every teacher in the service with core skills in
teaching with ICT. These goals shape our curriculum content, particularly in the
development of tutorials (called microLESSONS) and skills in choosing relevant
instructional materials.

Influenced by the above factors, NIE's ICT course in the early 2000s focused on the
development of ICT skills of student teachers. The underlying assumption was that
student teachers, when equipped with relevant ICT skills, coupled with an awareness
of the various instructional strategies, will be competent designers of ICT integrated
lessons. The course was entitled Introduction to Instructional Technology. A learning
management system (LMS) was used as a medium to deliver the course materials and
to communicate with student teachers. Course content was delivered via PowerPoint
slides.

Student teachers were expected to demonstrate their competencies through the design
of a computer-based lesson (CBL) as part of their assignment. PowerPoint became the
main tool for content delivery. Ensuring student teachers' acquisition of relevant
technology skills, they were taught how to create PowerPoint slides. They
demonstrated their skills and knowledge application in designing a PowerPoint-based
lesson, called microLESSONS. Student teachers were first introduced to two broad
categories of instructional approaches: teacher-centred  versus s t u d e n t - c e n t r e d
approaches. They engaged in discussion of the different learning theories with an
emphasis on student-centred learning. microLESSONS are small units of instructional
materials that harness the power of ICT to teach specific objectives (Divaharan &
Wong, 2003). The small, 'bite-sized' instructions were meant to be self-sufficient for
teachers to use within larger lesson units.

In the creation of microLESSONS, student teachers needed to incorporate various
computer features (e.g. animation, graphics, sound and interactivity) to enhance the
teaching and learning process within a classroom. A range of instructional activities
such as simulations, games, and problem solving activities were incorporated. The
development of microLESSONS offered student teachers opportunities to think and
apply their pedagogical knowledge. Student teachers were expected to show a
transition from teacher-directed instruction to a more constructivist mode of learning
in their lesson design.

Tools and pedagogies

Intent on equipping student teachers with relevant instructional approaches and ICT
skills, access to resources and materials to learn the ICT skills were provided via the
LMS.  Faculty lectured and demonstrated technology skills such as CD-ROM use,
locating relevant CD-ROM and Internet resources, and evaluating CD-ROM and
Internet resources.

During this period, faculty’s use of ICT for instruction was largely to communicate and
share resources and materials via the LMS. PowerPoint was used as a medium to store
and deliver content. Opportunities were provided for student teachers to learn and
apply their technology skills in designing PowerPoint based teaching and learning
materials, having observed faculty modelling of teaching using PowerPoint based
resources.



Divaharan, Lim and Tan 1307

The second milestone (2004-2009): Technology-integrated lessons
During this period of time, the prevalent ICT training approach focused on putting the
learner at the centre of all activities that were designed. The course adopted the
attributes of meaningful learning as characterised by Jonassen, Howland, Marra and
Crismond (2008), which include active learning (learner is manipulative and
observant); constructive (learner is articulative and reflective); cooperative (learner is
collaborative and conversational); authentic (learning context is complex and real life);
and intentional (learning is goal directed).

Similarly, the local ICT policy continues to exert its impact. The second Master Plan
(mp2) for ICT in education was inaugurated in 2003 and lasted till 2008. The main goal
of mp2 is that ICT will be pervasively and effectively used to enhance teaching and
learning processes.  Selected outcomes articulated in mp2 that are of relevance to NIE’s
teacher education program are (i) learners use ICT effectively for active learning; (ii)
connections between curriculum, instruction and assessment are enhanced using ICT;
and (iii) teachers use ICT effectively for professional and personal growth. The ICT
course during this period was entitled ICT for Meaningful Learning.

Tools and pedagogies

As in the past, the LMS continued to serve its role as a medium for communication
with student teachers as well as to share resources and course materials with them. An
additional technology tool that was utilised extensively with student teachers was the
discussion board. With an emphasis on social construction of knowledge, student
teachers were introduced to collaborative learning approaches. In view of mp2
outcomes requiring learners’ use of ICT for active learning, student teachers were
exposed to various pedagogical approaches which could be used to support ICT
integration. Student teachers explored various pedagogical approaches, for example
case-based learning, inquiry-based learning, project-based learning, resource-based
learning, and game-based learning. Relevant resources and links to additional
resources were uploaded into the LMS. Student teachers were engaged in online
discussions, where they worked collaboratively to explore the various pedagogical
approaches, and to relate ICT tools to the pedagogical approaches. These online
discussions were facilitated by the faculty, who modelled facilitation and coaching
skills for the student teachers. Faculty modelling of facilitation and mediation online
was a key to the student teachers’ learning the skills as they participated.

As part of the module assessment, student teachers were assessed on their ability to
facilitate online discussions among their peers. Assessment of how they functioned as
online collaborative teams to modify or create authentic interactive learning resources
for engaging their learners was also carried out by the faculty. Both tutor as well as
peer evaluations were introduced as part of the assessment component (Divaharan &
Lourdusamy, 2002).

Given the need to instil independent lifelong learning skills, student teachers were
required to showcase their ability to self-learn an innovative technology tool. Support
for student teachers was provided through the provision of resources available for
them via the LMS. For a selected number of tools, student teachers were provided
start-up resources to learn. These were in the form of self-help videos and tutorials.
Student teachers, who explored tools beyond the options given, were guided by the
faculty (Divaharan & Koh, 2010; Koh & Divaharan, 2011).



1308 Australasian Journal of Educational Technology, 2011, 27(Special issue, 8)

The third milestone (2010-current): Knowledge creation with Web
2.0
With continuous influence from policy changes and student teachers competencies, the
current curriculum is yet another endeavour towards preparing them for the teaching
fraternity. The goal of the current course to nurture our student teachers to become
21st century teachers skilled at using technology for facilitating school learners’
knowledge creation.

The third Master Plan (mp3) for ICT in education was instituted in 2009 and will end in
2014. The main goal of mp3 is to foster in learners the competencies of self-directed
learning (Tan, Divaharan, Tan & Cheah, 2011) and collaborative learning (Chai, Lim,
So & Cheah, 2011) through the effective use of ICT. Concurrently, the plan aims to
develop learners to be discerning and responsible ICT users. Among the enablers is the
capacity for the teachers to plan and deliver ICT-enriched learning experiences for
students to become self-directed and collaborative learners, as well as to become
discerning and responsible users of ICT (MOE, 2011).

Tools and pedagogies

The use of ICT incorporation was underpinned by a framework termed Dimensions of
Meaningful Learning. The framework is represented by five aspects of what we deem as
appropriate attributes of meaningful learning in the Singapore context. This was
achieved by appropriating characteristics of meaningful learning advocated by
Jonassen et al. (2008). To accomplish greater alignment between our curriculum and
the IT Master Plan 3 laid out by the Ministry of Education, Singapore, self-directed and
collaborative learning were incorporated as part of the five dimensions. As a result, the
five dimensions of meaningful learning are: Engaging prior knowledge, Learn by doing,
Real-world context, Self-directed learning and Collaborative learning.

To provide a truly meaningful learning experience and to appreciate the unique
disposition of NIE, and taking into consideration student teachers’ ICT competencies,
it was pertinent to provide a learning framework where student teachers will be able
to experience the use of the various ICT tools as learners themselves before they are
adept of applying the knowledge and experience to design lessons.

Figure 1: Overview of ICT use in the current course

E-learning hub: Anywhere,
anytime access to resources

LMS: Communication and
portal for resources

Google Docs: Means of
interaction and communication
for student teachers and faculty

ICT use
in NIE



Divaharan, Lim and Tan 1309

ICT assimilation into the course can be categorised in three broad spectrums. Figure 1
provides an overview of the adoption of current ICT practices.

Dissemination of information and communication with student teachers took place via
the LMS. Sending emails, course instructions and reminders were through the LMS.
The e-hub was a new conception and addition to the ICT course. The intent was to
make available course resources and materials to student teachers at all times. All
course materials and resources were stored in the e-learning hub. Figure 2 shows a
screen capture of the e-learning hub and Figure 3 shows the core materials screen. The
e-learning hub made provisions for student teachers to be self-paced learners with the
ability to access the materials and resources to explore and learn.

Figure 2: E-learning hub

The e-learning hub encompassed core course materials, videos resources, animations
to provide visual understanding of concepts and additional reading references. Core
materials section contained the essential course resources.  These were classified under
the five Dimensions of Meaningful Learning as well as Lesson Planning and Cyberwellness.

Encouraging self-directedness in student teachers

To encourage self-directed learning, student teachers were provided self-learning
materials for a repertoire of technology tools and this was delivered in the Technology
Enabled Lessons (TELs) section of the e-hub. Figures 4 and 5 shows how a game based
learning TEL looks like. These are self-paced materials, where student teachers can
learn them on their own and clarify doubts during tutorials.



1310 Australasian Journal of Educational Technology, 2011, 27(Special issue, 8)

Figure 3: Core session materials

Figure 4: TEL access page

Expanding beyond course relevant resources, student teachers had access to videos of
school ICT use, additional web resources and open resources which were accessible to
them via the ‘Resources’ section of the e-hub, as shown in Figure 6.



Divaharan, Lim and Tan 1311

Figure 5: An example of a TEL

Figure 6: Resources page

Engaging prior knowledge and real world contexts through blogging

Summarised by the National Academy of Sciences book on How students learn
(Donovan & Bransford, 2005), one of the fundamental principles of learning that is
important for teaching is to draw connections to learners’ prior knowledge. The
rationale for engaging learners’ prior knowledge is to facilitate deep learning for
transfer to other contexts. For student teachers, it is important for them to elicit their
prior conceptions of teaching and to make connections with new information.



1312 Australasian Journal of Educational Technology, 2011, 27(Special issue, 8)

Contemporary research on learning has argued that learning tasks situated in some
real-world situations are not only better remembered but also facilitates transfer of
learning to new contexts (Jonasssen et al., 2008). The rationale for real-world contexts is
to bring to fore the importance of designing learning environments that are as
authentic as possible for meaningful learning to take place.

To make provisions for this knowledge creation, student teachers were assigned tasks
during their Enhanced School Experience (ESE). During ESE, student teachers are in
school under the guidance of a teacher mentor. They experience what it takes to be a
teacher. Student teachers were asked to blog their experiences and observations of ICT
use in schools, and to reflect on mp3 and its application in teaching and learning.
These blogs were to be shared with their peers as well as their tutors. Blogs were a
good platform for student teachers to journal their observations and their opinions.
Sharing of their individual and personal perceptions helped them to learn from each
other and to expand their view points as they read their peers experiences from the
various schools. During the first tutorial after their return from ESE, student teachers
and faculty engaged in discussions drawing on the perspectives shared in the blogs.
The use of blogs encouraged the student teachers to capture snapshots of the ICT
integrated learning environment in schools and created opportunities for them to learn
through engaging prior knowledge and making connections to real-world knowledge
(school and classroom contexts).

Learn by doing and collaborating via Google Docs

The focus of the dimension Learn by doing is to introduce to the student teachers the
participative nature of learning (Sfard, 1998). Learn by doing emphasises what
practitioners do in the real world. For student teachers, the key is to help learners
establish connections between school knowledge with knowledge used in the real
world.  The curriculum addresses the dimension of Learn by Doing by having student
teachers understand what learn by doing means and its importance for meaningful
learning to take place.

Google Docs was chosen as a platform for student teachers to embark on their
collaborative learning discussions. Activities, discussions, peer feedback as well as
faculty feedback was provided via the Google Docs platform. A culture of sharing was
mooted so that they will be encouraged to learn from their peers (Divaharan & Lim,
2010) and to provide feedback to each other in the spirit of learning. Student teachers
were able to tap into the affordance of the platform to engage in real time discussion,
to provide feedback to each other, and to extend their learning beyond face to face
tutorials. Faculty involvement was in the form of monitoring the student teachers’
learning, stretching their knowledge creation by coaching them and providing
feedback via the platform.

One such activity which encouraged Learn by doing was the involvement of student
teachers in ‘Reciprocal Teaching’.  Student teachers were divided in groups and each
group was tasked to explore one of the five Dimensions of Meaningful Learning. The
student teachers were expected to use Google Docs as a platform to discuss, consolidate
learning, and to be prepared to teach their peers the dimension that they had learnt.
Tutors were monitoring, scaffolding their learning in the background such that the
learning becomes a meaningful experience for the student teachers.



Divaharan, Lim and Tan 1313

The combination of the various ICT tools ensued in an anytime and anywhere
continuous learning experience for the student teachers.  However, to ensure that
effective learning experiences were shaped, the delivery of the course was
underpinned by the above-mentioned five Dimensions of Meaningful Learning as
articulated by the course.

Reflection on our applications of ICT to support teacher education
As we engage in second level reflection on our own practices in supporting student
teachers learning with ICT, we identify three key influences that shape our decisions
and actions. They are our beliefs and philosophy about the pedagogical applications of
ICT, the proliferation of Web 2.0 tools in teaching and learning, and finally, the
necessary epistemological shift in tandem with Web 2.0 tools.

Our beliefs and philosophy: Harnessing the learning sciences for knowledge
creation

The field of the learning sciences “draws on multiple theoretical and research
paradigms for the human sciences so as to understand the nature of and conditions of
learning, cognition and development” (Barab, 2004, p. 16). One such study of human
cognition includes learning in relation to forms of technology (Duffy, 2004). Evidenced
in the trajectory we have taken, it is our belief that it is no longer sufficient to have our
student teachers being effective in using technology, which represents a narrow focus
on technology skills competency. We believe in developing them to be teaching
professionals who understand the nature of cognition, so that they can appropriately
harness technology to help school learners learn better. Hence, the shift in our
curriculum during the period of mp2 to have student teachers learn collaborative
learning approaches and various pedagogical approaches to support ICT integration in
teaching and learning.

In fact, as shown in the third milestone in tandem with the mp3, we created various
opportunities for student teachers to make sense of their learning experiences. They
range from drawing on the e-hub resources as they participate in reciprocal teaching
during the face to face sessions. During reciprocal teaching, groups are required to (1)
make sense of the principal learning resources, (2) include additional research if need
be, and (3) contextualise their reciprocal teaching, using examples from their prior
experiences. These conditions are to provide opportunities for peer learning during the
face to face sessions, whilst the instructors steer the discussions towards deeper
learning. In addition, the intent of the TELs sessions is for student teachers to
experience the affordances of various ICT tools and more importantly, to make sense
of their experience in regard to the Dimensions of Meaningful Learning framework. Such
sense making has been argued by Darling Hammond et al. (2008) to be one of the key
principles of learning facilitating application and transfer to new situations.

Ultimately, towards the goal of developing 21st century student teachers, it is in our
belief that student teachers, in order to help school learners construct knowledge,
should be knowledge creators themselves (UNESCO, 2008). They should not only be
able to appropriate current effective ICT integration practices into their teaching and
learning repertoire, but also be able to solve novel and ill-structured problems in their
endeavours. Our role then is to provide rich and meaningful experiences for them to
make sense of current practices as well as to explore new ways of meaningfully
engaging school learners.



1314 Australasian Journal of Educational Technology, 2011, 27(Special issue, 8)

Complementing Web 2.0 and knowledge creation

The advent of Web 2.0 has brought about a phenomenon that current and future
curriculum design cannot ignore. As Brown and Adler (2008) argued, Web 2.0
technology has created a culture of participatory learning called learning 2.0 wherein
the focus is “learning to be through enculturation into a practice as well as on collateral
learning” (p. 30). Compared to more traditional web technologies, Web 2.0
applications are easy to create, combine, publish, and share, thus empowering people
to participate as content producers. In the context of NIE, we are increasing the use of
Web 2.0 (e.g. Google Docs) in our pedagogies of teacher training. Through the
integration, our student teachers are not just mere recipients of information but are
now empowered to build knowledge (UNESCO, 2008).

In the context of the current curriculum design, such a participatory learning culture is
congruent with what we believe in. It is in the motivation of having our student
teachers understand the meaningful learning framework as a didactic academic
exercise, and go further in being able to apply their learning meaningfully in new
situations. In fact, it is in our vision that with this education they experience, they can
transform the more traditional teaching and learning practices into a participative
culture. We contend that the integration of Web 2.0 with our experiential pedagogical
approach can bring about a more deep-rooted system intervention in the teacher
education system.

That said, we are very mindful of the criticism of integrating Web 2.0 technologies in
institutes of higher education for teaching and learning. We are cognisant of the
fundamental contradictions between institutional cultures that adopt conventional
pedagogies, and media cultures that leverage open and participatory spaces for
collective participation. Related to this issue of cultural clash, Rollett, Strohmaier,
Dosinger and Tochtermann (2007) posit that “as soon as we exploit Web 2.0
applications for organization purposes, and for that reason define concrete aims and
impose structure, there is the danger that the very character of Web 2.0 might get lost
in the process” (p.106). To ensure that there is internal consistency in the curriculum,
professional development has been conducted for staff conducting the ICT course. In
these sessions, rationales of curriculum design as well as implementation strategies
were shared and discussed.

Web 2.0 as epistemology shifters

Moving forward, we envisage that we will be increasing our use of Web 2.0 tools. To
prevent us from being embroiled in the cultural clash between the spirit of Web 2.0
and the institutional structures, we appropriated the paradigmatic differences outlined
by Lim, So and Tan (2010) to articulate how we draw on Web 2.0 as epistemology
shifters. According to Lim et al. (2010), e-learning 1.0 and e-learning 2.0 can be
contrasted along the dimensions of technological, social and epistemological (Table 2).

Table 2: Shift in student teachers’ epistemology
Dimension e-learning 1.0 e-learning 2.0

Technological Closed structure Open structure
Social Bounded participation Fluid participation
Epistemological Epistemology of possession Epistemology of practice



Divaharan, Lim and Tan 1315

First, with respect to technological dimensions, they contend that e-learning 1.0 is
mainly based on closed structures around content delivery while e-learning 2.0 brings
a diversity of open systems designed for social networking (Lim et al., 2010).
Translating this to the context of the current curriculum, we hope that through the use
of Web 2.0 technologies, faculty are made more cognisant on the ways to encourage
continuous interaction and collaborative learning opportunities. Faculty who are
successful with the use of Web 2.0 engage student teachers meaningfully and are able
to meet their learning needs.

Next, on the social dimension, e-learning 1.0 focuses on self paced instruction in
isolation while e-learning 2.0 puts learners at the center of a knowledge creating
community. Aligned with our appropriation of a participative culture for knowledge
creation, the use of Web 2.0 is to emphasise ways of social engagement, media literacy
practices, and goal-oriented content creation. Student teachers and faculty learn that
learning is no longer about regurgitation but in production of knowledge in context.
Also, production is seldom done individually but often leveraged on the strengths of
the social.

Finally, on the epistemological dimension, there is a shift from the metaphor of
possession to participation. As we now live in a participatory, knowledge-creating
culture, how we learn, what kinds of knowledge we access, and how we evaluate
knowledge sources become central questions to reconsider in education. According to
Jenkins (2006), “ways of knowing may be seen as distinctive and personal as what
kinds of knowledge we access, but as knowing becomes public, as knowing becomes
part of the life of a community, those contradictions in approach must be worked over
if not worked through” (p.44). So drawing on Web 2.0 tools incorporated in the
curriculum, opportunities arise for faculty to discuss with student teachers about the
shift, including importantly, just how such a shift in learning brings about benefits for
our school learners, and the associated implementation issues that can occur.

Conclusions

The theme for this special issue is ICT for accessible, effective and efficient higher
education. As an academic group in a teacher education institution that is responsible
for developing student teachers’ capacity on the use of ICT for teaching and learning,
we need to consider the three-prong tenets of accessibility, effectiveness and efficiency
from both the perspectives of our student teachers as well as our own. Specifically, we
see that these tenets undergird our pedagogical approach as we educate our student
teachers on the applications of ICT, and at the same time, serve as useful heuristics as
we reflect on our own pedagogical use of ICT to support teaching and learning.

In essence, our course design went through three major changes. In early 2000, the goal
of the ICT course was to prepare student teachers with relevant ICT skills and
associated instructional approaches. In mid-2000, the focus of the course was on social
construction of knowledge. Hence, the course featured collaborative learning and the
use of discussion forum. We developed the relevant skills needed by student teachers
to manage both face to face ICT integrated learning environments as well as online
environments. By late 2000, the focus had shifted to knowledge creation with Web 2.0.
The current design framework of the course was underpinned by the five Dimensions of
Meaningful Learning, which include (i) Engaging prior knowledge; (ii) Learn by doing;
(iii) Real world knowledge; (iv) Collaborative learning; and  (v) Self-directed learning.
These dimensions were introduced as considerations for student teachers when



1316 Australasian Journal of Educational Technology, 2011, 27(Special issue, 8)

designing technology integrated lessons. In order to truly comprehend these aspects of
learning, and to be able to apply them effectively, the student teachers were taken on a
learning journey of a repertoire of technology tools enabling them to apply the
knowledge acquired to design technology integrated lessons to replicate similar
experiences for their learners. In sum, the use of ICT tools shifted from a content
delivery tool (PowerPoint), to learning management and collaborative tool (LMS and
discussion forum), and finally to the current form of integrated suite of technologies,
including Web 2.0 technologies.

Reflecting on our journey, our own beliefs and philosophy has changed, from that of
developing instructional design skills among our student teachers to that of
developing their knowledge creation capacity. At the same time, we are conscious of
the prevalence of Web 2.0 tools that makes ICT accessible to learners of all ages. As we
harness the Web 2.0 for knowledge creation, we are cognisant of the necessary
epistemological shift so that these tools can be used effectively to support the
eLearning 2.0 paradigm that is open in structure, fluid in its social membership, and
entailing learning through participation in a community.

Moving forward, we are watching a few potential developments. First, what is the
level of new media literacy among our students and student teachers? As student
teachers enter our program, what is their level of new media literacy and how could
that impact their learning? Second, the shift in participatory metaphor of learning to
the metaphor of learning to be, that is, learning as identity development. How do we
help our student teachers develop their identity as a teacher and how could technology
facilitate this process? Third, what are the new opportunities offered by Web 3.0
technologies? What would Web 3.0 technologies look like and what educational
affordances do they offer? Regardless of the outcome, our experience shows that
constant reflection on our beliefs and epistemological assumptions is necessary to
harness the potential of technologies for their effective use in education.

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Authors: Dr Shanti Divaharan, National Institute of Education,
Nanyang Technological University, Singapore
Email: shanti.divaharan@nie.edu.sg
Web: http://www.nie.edu.sg/profile/shanti-divaharan

Ms Lim Wei Ying, National Institute of Education,
Nanyang Technological University, Singapore
Email: weiying.lim@nie.edu.sg
Web: http://www.nie.edu.sg/profile/lim-wei-ying-rebekah

Dr Tan Seng Chee, National Institute of Education,
Nanyang Technological University, Singapore
Email: sengchee.tan@nie.edu.sg Web: http://www.nie.edu.sg/profile/tan-seng-chee

Please cite as: Divaharan, S., Lim, W. Y. & Tan, S. C. (2011). Walk the talk: Immersing
pre-service teachers in the learning of ICT tools for knowledge creation. In Hong, K. S.
& Lai, K. W. (Eds), ICT for accessible, effective and efficient higher education:
Experiences of Southeast Asia. Australasian Journal of Educational Technology, 27(Special
issue, 8), 1304-1318. http://www.ascilite.org.au/ajet/ajet27/divaharan.html