andrews


Australian Journal of 
Educational Technology 

1998, 14(2), 88-97 

 
 

Challenges of multisite video conferencing: The 
development of an alternative teaching/learning 
model 
 
Trish Andrews and Greg Klease 
Central Queensland University 

 
The current trend of globalisation is one that is having a marked impact on 
society and the area of education in particular is feeling the impact. The dramatic 
changes that are taking place as a result of globalisation means that the demand 
for education is increasing significantly. There is growing recognition of not only 
the need for skills development but also reskilling and a requirement for lifelong 
learning (Duguet, 1995). Additionally, the increasing availability and stability of 
communications technologies along with the economic rationalisation that is 
characteristic of the nineties, means that educational institutions are rethinking 
the ways in which they deliver teaching and learning activities to an increasingly 
diverse and dispersed clientele. 
 
This article describes a video conferencing project at Central Queensland 
University which was implemented to deliver simultaneous interactive 
instruction in first year chemistry to three campuses - Rockhampton, Mackay, 
Bundaberg. The article discusses some of the issues of implementing video 
conferencing as a tool for teaching in a distributed, multi-campus institution and 
the challenges in developing an interactive teaching and learning model. This 
includes the need for intensive ongoing staff development and the recognition 
that staff development for teaching with technology is a long term process of 
skills acquisition. It also recognises the importance of appropriate student 
preparation and the part this plays in successfully adopting technologically 
mediated teaching and learning programs. 
 

Introduction 
 
Central Queensland University (CQU) is an integrated multi-campus 
regional University located principally in Central Queensland, Australia. 
The University has five Campuses in Central Queensland with the main 
campus located at Rockhampton. The other Central Queensland 
Campuses are Mackay (330 km to the north) Gladstone (110 km to the 
south) Bundaberg (350 km to the south) and Emerald (260 km to the 



Andrews and Klease 89 

west). The University offers on campus courses at each of its sites, across 
campus courses and distance courses using a variety of delivery 
techniques. The Bachelor of Applied Science (Chemistry) degree 
program has been offered to full time on campus students at 
Rockhampton since the early seventies. In 1989 the first year of the 
degree course was offered in Mackay and in 1996 the program 
commenced in Bundaberg. A major problem which confronted staff 
teaching chemistry (and indeed all other degree science subjects) to the 
on campus students, was how do we teach the subject matter from a 
central location and still ensure that the students at the other 
geographically dispersed locations have the opportunity to develop the 
same learning experiences and also a sense of belonging to CQU. 
 
Developing multi-campus teaching and learning models 
 
Initial approach to multi-campus teaching 
 
The University has been a distance education provider since the early 
seventies. It has progressively developed as a multi-campus institution 
over the last twenty years. This experience with distance and distributed 
teaching was certainly an advantage when the University began 
developing as a multi-campus institution since it meant that there was a 
package of learning materials that could be provided to the on-campus 
students at the other campuses. However, it was quickly identified that 
school leavers in on-campus learning situations did not have the 
independent learning skills to study successfully from predominantly 
print based distance education materials. This prompted the University 
to seek out a more interactive teaching and learning model involving  
distributed campus staff as tutors. As a consequence of this Tutored 
Video Instruction (TVI) was introduced. The TVI technique was initially 
developed at Stanford University in the USA in the late sixties where it 
was used as a means of offering postgraduate courses to engineers 
employed at nearby companies. Evaluation of the use of TVI at CQU 
(then Capricornia Institute of Advanced Education) showed that the 
students who received their lectures through TVI sessions performed at 
least as well as students who attended live lectures at the University 
(Dekkers et al, 1986). 
 
In TVI, multiple videotape recordings are made of the regular classroom 
lectures at the delivery campus. These video tapes are then used for 
instruction with groups of students facilitated by a tutor at the non-
delivery campus. During viewing of the video tape the lectures are used 
as a stimulus to discussion by students and for peer and tutor 



90 Australian Journal of Educational Technology, 1998, 14(2) 
 
interaction. For it to be successful it has to be used as truly tutored video 
instruction, that is the tutor needs to be proactive, critical and supportive 
of the material being discussed. If the lectures became “watching a TV 
program” the students soon turn off.  In many cases of using TVI,  true 
interactivity is not achieved (Crock, Field & Andrews, 1996). 
 
Introduction of video conferencing 
 
With the development of the University’s video conferencing network, 
this was seen as a viable method to consistently encourage higher levels 
of peer, lecturer and tutor interaction. It was therefore decided to trial 
multi-point video conferencing for the delivery of level 1 chemistry 
lectures at the beginning of 1996. Point to point video conferencing had 
been used on previous occasions for contact between staff at other 
institutions and it was thought that video conferencing could be a 
suitable vehicle for conducting teaching and learning activities. 
 
Video conferencing is a unique method of providing real time face-to-
face interaction that enables immediate peer and teacher interaction and 
feedback. This interaction can minimise feelings of isolation and provide 
for a richer learning experience for students and staff at geographically 
separated sites.  
 

Video conferencing technologies are powerful tools for distributed 
education and play a major role in the creation of new teaching and 
learning environments that are becoming increasingly common through 
the use of flexible delivery options. (Bates, 1994) 

 
The video conferencing project 
 
The video conference trial for level 1 chemistry took place in first 
semester 1996. A one hour video conference session was conducted for 
each week of the semester. Tutors at the Bundaberg and Mackay 
campuses provided on-campus support to students.  
 
The outcomes of the trial indicated the following: 
 
• there are considerable challenges in developing effective interactive 

multi-campus teaching and learning models 
 
• the role of staff development activities and time for skills acquisition 

are critical to the success of developing these models 
 



Andrews and Klease 91 

• on-campus students are generally under prepared for technologically 
mediated teaching and learning environments and operate more 
effectively in these environments following preparation programs 
prior to the commencement of classes. 

 
The use of new technologies in developing alternative teaching and 
learning environments provides many challenges to both teachers and 
learners. In this particular project, although the participants set out eager 
to explore the interactive aspects of the technology, what in fact resulted 
was a fairly didactic teacher centred model of learning moderated by 
attempts to involve students in discussion by questions from the lecturer 
aimed at eliciting responses from the students. In reality staff had 
limited understanding of how to develop a different model of teaching 
and learning that included real interactivity. The development of 
effective teaching and learning environments using media such as video 
conferencing rely on more student centred approaches to learning. This 
includes the development of new teaching and learning models that 
exploit the technology rather than transferring existing teaching and 
learning models to the new genre. 
 
In many cases students also had little understanding of how to operate 
in this new environment and of the different expectations of them as 
learners. Although students were encouraged to interact during the 
sessions the lecturer experienced little success in encouraging real 
spontaneous interaction from the students. 
 
As a consequence of this initial experience and the valuable lessons 
learned from use of this technology on a regular basis it was decided to 
trial a more structured, student centred tutorial model of teaching and 
learning based on group work, with the same group of students as in the 
initial trial.  It was felt that this approach would result in a more 
interactive teaching and learning environment. 
 
Group teaching and learning as an alternative model 
 
The shift from a didactic model to one of unstructured, spontaneous 
interaction was asking too much of  both teachers and learners and 
placed unrealistic and unreachable expectations on them. Group work 
allowed for a structured approach with set roles and expectations for all 
participants. Groups of three were selected according to a model by Sleet 
(1996). The roles were manager, questioner/sceptic and 
recorder/checker. Each role had set tasks and activities and suggested 



92 Australian Journal of Educational Technology, 1998, 14(2) 
 
strategies for achieving these. Group work  of this model also provided 
learners with the opportunity to view problems and activities from a 
number of different perspectives. This  has a spinoff for graduate work 
related activities as well and can thus be viewed as educating the 
learners for real workplace requirements ie cooperative team based 
tasks/projects.  
 
As this was a new approach for most participants, video conferencing 
technology was used for training the learners in the roles of each of the 
members of the group - manager, questioner/sceptic and 
recorder/checker. 
 
Each group was given a problem to investigate and was required to 
present their findings to the class across all campuses. The problems 
related to key topic areas of the physical chemistry curriculum. For 
example, students were required to develop solutions using appropriate 
formulae, calculations and interpretations. The whole class had 
previously been provided with information on the problems each group 
would discuss, thus encouraging open interaction during the video 
conference sessions. Each group had a week to work on solutions to 
their problem prior to their presentation and discussion. These 
discussions were facilitated by both the lecturer and tutors at the various 
sites and proved an effective strategy in involving the wider group of 
learners. 
 
Evaluation of the group teaching approach 
 

Evaluation of the group teaching approach  was conducted through 
weekly observations of the video conferenced sessions by the flexible 
learning adviser involved in the project and also through focus group 
discussions with participating students  at the Mackay, Bundaberg and 
Rockhampton campuses. 
 
From these  observations it became clear that this more structured 
approach to interaction resulted in greater peer and teacher 
communication. This approach encouraged communication across 
campuses as well as within campuses.  It was also observed that there 
was a considerable element of peer tutoring within each group involved 
in the actual preparation of the materials for discussion. The processes of 
engaging in group work encouraged greater exploration of issues and 
helped to develop critical thinking skills. As one student remarked 
 

Group work makes us think about and do the problem. 
(Klease, Andrews & Druskovich 1996) 

 



Andrews and Klease 93 

Using this group work approach students appeared to be more relaxed 
in presenting their findings to the multi-site group and seemed to be less 
inhibited by the presence of the camera. This was in marked contrast to 
the experience in the initial project. Students also appeared to feel 
comfortable in interrupting and offering their opinions and even in 
disagreeing with the majority opinion. As well as encouraging more 
interaction from the students, the lecturer also participated in this more 
structured, interactive learning environment through providing positive 
feedback or clarification and explanation  as required. This group 
approach was quite informal and students appeared at ease in making 
spontaneous remarks and social comments as well as participating in the 
learning activities. While the initial outcomes of this structured group 
approach to encourage interaction was successful, it was apparent  to the 
observer that students required further training to make full use of the 
video conferencing facilities. Students demonstrated little understanding 
of how to produce materials for the document camera (means of 
transmitting documents via video conferencing) and some sites also 
experienced difficulties in operating the controls. 
 
This problem of lack of familiarity with the equipment  and limited 
understanding of how to prepare a presentation using the document 
camera was also highlighted by the students in the focus group 
discussions. 
 
 Additionally, students commented that this opportunity to interact with 
peers developed a sense of belonging to the wider University 
community and of being part of the larger, dispersed group. The 
students appreciated access to the actual lecturer who had set the 
assessment activities (assignments and examinations) thus obtaining a 
first-hand understanding of the level expected. The relatively small 
numbers of students at each site were also considered a factor in the 
success of this model for encouraging communication and participation 
across sites. 
 
Given the dispersed nature of our campuses and the total enrolment 
numbers at individual sites it is not cost-effective to employ full-time 
lecturers in each discipline area at each site. Video conferencing 
overcomes the “access to the expert” gap by providing opportunities for 
face-to face-interaction on  a regular basis. 
 
 
 
 



94 Australian Journal of Educational Technology, 1998, 14(2) 
 
The role of staff development and student preparation 
 
The need for staff development 
 
Traditionally, in  Australian Universities, the majority of teaching staff 
do not have any kind of formal teaching qualification. This means that 
most staff develop their understanding of teaching and learning from 
their own University experience. In the majority of cases this tends to be 
a fairly traditional lecture/tutorial format. 
 
From the observations of the initial video conference sessions, it soon 
became clear that there was a need for some staff using technologies 
such as video conferencing to participate in a “gestation period” (Stacey, 
1997) that would enable them to develop a realistic grasp of the ways in 
which the technology can be used more effectively. A familiarisation 
process occurring through active use of the technologies is a critical part 
of the development of new teaching and learning models and requires 
an investment of time.  This “gestation” period enables staff to think 
about the environments in which they are working and to come to grips 
with the sometimes subtle differences between “real” and 
technologically mediated “face-to-face” teaching and learning 
environments. It enables staff to understand the potential of the 
technology in terms of what can be realistically accomplished and to 
have the time and support to “reskill”. The results can be very beneficial 
with possible outcomes including more effective utilisation of the 
technologies selected and the development of teaching and learning 
models more suited to the video conference environment. 
 
The need for student preparation 
 
Learners also are facing challenges in these new environments. Many 
students still have a traditional view of what a University education 
means. Thus, they have particular expectations regarding their role and 
the role of the lecturer. Many students still feel that they need to get their 
information from the lecturer as the “expert” in order to learn 
“properly”. The notion of taking responsibility for their own learning is 
quite foreign to many of them. 
 
For the majority of the learners this was a completely new experience 
and few were comfortable with responding spontaneously in this new 
environment. For most of us, watching television is  a passive activity 
and we are not expected to respond to it. Many students reported feeling 
inhibited by being focused on from a number of directions - focus from 



Andrews and Klease 95 

the camera, focus from the class at their site, focus form the class at other 
sites and focus from the lecturer. In “traditional” class situations it is not 
uncommon for students to feel inhibited by the presence of their 
classmates and not wanting to look foolish in front of their peers. For 
students engaged in video conferencing there is the added pressure of 
being broadcast to the world, albeit the small world of other campuses. 
Additionally, some students found the actual presence of the camera 
very inhibiting and actively sought to stay out of camera range, an 
experience that is supported by research by Comeaux (1995). 
Furthermore, many students also expressed a reluctance to break into 
the lecturer’s “precious” time. This is commonly expressed by students 
in other projects of this type (Andrews & Klease 1997). Students 
expressed a preference for interacting with their tutor at their site after 
the video conference session was completed if there were any points that 
required clarification. While this is not necessarily a negative, it does 
limit opportunities for spontaneous interaction during actual video 
conference sessions.  
 
Many of these difficulties and perceptions regarding alternative teaching 
and learning environments can be overcome by preparing students for 
these different environments prior to the commencement of their 
courses. Regardless of the approach taken, it has become increasingly 
apparent that students are struggling with the changes in teaching and 
learning as much as staff and that addressing this issue needs to be seen 
as a priority. 
 
Conclusions 
 
This project provided a wealth of opportunities for both professional 
development for staff  and for skills development for students 
complementary to their knowledge acquisition in chemistry. In the 
currently evolving education and work markets there is a need for both 
staff and students to be involved in life long learning processes and to 
acquire and develop a broad range of skills. 
 
Staff were able to explore the most effective means of using video 
conferencing technology to achieve positive learning outcomes. The 
experience of using the technology enabled staff to develop a sound 
understanding of ways in which the technology could be best utilised 
which resulted in the moving away from a didactic teacher centred 
model to a more interactive student centred model. This process of 
developing understandings about the effective use of video conference 



96 Australian Journal of Educational Technology, 1998, 14(2) 
 
for teaching and learning in chemistry, through active participation, was 
a true professional development activity for the staff involved. It is 
doubtful that such outcomes could be achieved through a workshop 
activity alone. It is emphasised that the development of an effective 
model for multi-campus teaching using video conferencing technology 
is an ongoing professional development process and reflects feedback 
and evaluation provided by tutors, lecturers and students. 
 
For the students, the introduction of the group teaching model not only 
resulted in more communication and interaction between peers and 
lecturer but also encouraged the development of work place 
competencies valued in the job market. The group work approach 
encouraged the sharing of knowledge and peer support in a productive, 
positive environment. This approach also encouraged the development 
of both critical thinking  and problem solving skills as well as 
encouraging learners towards more independent learning strategies. It is 
believed that there needs to be a more pronounced shift to a learner 
centred model of teaching and learning with students developing the 
skills and confidence to share ideas, challenge opinions and propose 
solutions in a positive and supportive environment.  This approach also 
highlighted the need for student development for new teaching and 
learning and environments. It is felt that more extensive student 
awareness and preparation programs will not only form an essential 
part of  future developments using video conferencing technologies but 
also provide skills for students to become independent learners. 
 
The development  of  an interactive group work model for the teaching 
and learning of Chemistry can be seen as developing an effective 
teaching and learning environment not only for chemistry but also for 
other subjects using video conferencing technology. This kind of model 
may also have applications for nodes of distance education students 
attending interactive tutorial sessions at open learning centres (remote 
education support centres) using desktop video conferencing facilities. 
Video conferencing has become be an essential tool in maintaining 
course offerings to multi-campus institutions or for dispersed groups of 
students and has the potential to promote more interactive and effective 
teaching and learning processes. 
 
 
 
 
 
 



Andrews and Klease 97 

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