Microsoft Word - intaganok.doc


Australasian Journal of
Educational Technology

2005, 21(4), 510-532

Strategic development of information technology
services in a provincial higher education institute

Prachit Intaganok
Surindra Rajabhat University

Peter Waterworth
Deakin University

Siwaporn Srisamai
Surindra Rajabhat University

This paper describes a research project on the introduction of information
technology (IT) services to a higher education institution in north eastern
Thailand. The project considered the literature on the processes involved in
the introduction of IT services to educational institutions in various parts of
the world and attempted to understand the issues that institutions had to
deal with in introducing and productively using IT services in teaching,
scholarship and administration. It then analyses the nature of the process at
the case study institution, through a range of quantitative and qualitative
measures designed to draw data from staff, students and senior institutional
managers. A number of similarities and differences were identified between
what was found in the literature and what had occurred at the case study
institution and analysis of them led to the development of a model to
attempt to explain the attitudinal and practical stages through which an
institution goes in adopting a technical innovation. The impact of cultural
and contextual factors upon the acceptance of an innovation is stressed.

Introduction

The demand for economic progress in developing countries is often
accompanied by a powerful (sometimes uncritical) appetite for technology.
There is a need, not just for knowledge of what technological wizardry is
available, but also of an understanding of the appropriateness and
desirability of various kinds of equipment and applications. Higher
education institutions should be strategically placed to provide such
services to the community, particularly to the education community. They
have large numbers of technologically hungry young people within them
and are expected to have a transformative function within the society. Yet



Intaganok, Waterworth and Srisamai 511

in many ways they are not fitted to respond adequately to the technological
revolution. Their resources are severely limited and their expertise is
incomplete. It seems that the speed of change and the overwhelming
availability of technological options can, at best, confuse and, at worst,
alienate or disempower many staff within them. The capacity of
educational institutions to respond to the technological revolution is not
straight forward. They must handle issues and tensions of various kinds,
including

• the need to preserve local and national cultural formations
• the need to critically examine the technological products of powerful

non-local cultures
• the need to revise means of social interaction and review traditional

social structures
• the need to manage the fear of change
• the need to inspire confidence in the new and different.

This paper describes the way a Rajabhat Institute in north eastern Thailand
is attempting to meet the challenges of technological change in both
administrative and pedagogical functions. Rajabhat Universities form a
significant tier of higher education in Thailand and were developed from
the former teachers colleges. They now teach a range of courses and some
(including Rajabhat University Surindra) were recently designated with
university status. There are 41 Rajabhat Institutes in Thailand, one in each
alternate province. Thai education blends together the values and systems
of local and foreign cultures. It strongly reinforces Thai identity with all its
refinement and sophistication and attempts to reconstruct traditional
Buddhist sensibilities in its ethnically diverse population. Yet it embraces
an awareness of the need for modernisation and it struggles to provide the
best technological and economic skills the West can provide. Even though
this paper reports upon research carried out in one institution, the issues
with which it deals are commonly faced by many other similar institutions
and the analysis and discussion of issues may be applied to other settings.
We focused our investigation on the notion of computer usage and we
considered that a critical understanding of information technology (IT) was
largely dependent upon a level of familiarity with what was possible.
Moreover, we wanted to ensure that our research findings would have
some direct benefit to the institution in which the research was carried out
in its assessment of its own technological capabilities and needs.

Our research question therefore, was ‘what strategy may be used to
increase educational computer usage in a provincial higher education
institute in Thailand?’ Our understanding of the notion of usage included
not only the amount of usage, but also the quality and type of computer
usage. We were interested to find out the factors affecting greater or lesser



512 Australasian Journal of Educational Technology, 2005, 21(4)

usage by staff, administrators and students, the nature of usage for
educational purposes, and the application of information technology to
administrative work within the institute. We were also interested in the
links between each of these functions within the institute, and the
opportunities to link local information with information from outside
sources, both nationally and internationally. It was therefore important that
research data be sought at a number of levels and from a variety of sources
within the institute. Again, we saw it as important that questions of policy
and direction be raised so that present and future strategies could be
evaluated.

Thai higher education and technology

Recognising the importance of their leadership role in information
technology, higher education institutions in Thailand have been vigorously
developing information technology services in their institutions in
instruction, administration and management, to perform a range of
functions including

• staff and student access to the Internet
• instruction aided by data projection and computer assisted instruction

(CAI)
• virtual libraries
• student enrolment and reporting of grades
• communication to staff, students and the general public through

networking

Not all these functions have been achieved in all institutions and Rajabhat
Institutes have been less capable of providing them. But along with other
changes in education policy (such as the increase in autonomy for many
higher education institutions) which are demanding the attention of
university and Rajabhat councils, the IT Development Act (Charmonman &
Chorpothong, 2002) seeks to

• provide an IT infrastructure to serve all districts in the country
• develop an education network
• encourage and enable connection to the Internet in all educational

institutions
• require the use of only legally produced software
• stimulate competition in the industry to reduce product costs, increase

product quality and make servicing more accessible.

The Thai government has been actively developing an increasing capability
in IT through education as demonstrated in its 1997 Constitution and 2002
Amended National Education Act. The rhetoric has been matched with



Intaganok, Waterworth and Srisamai 513

specific funding of higher education institutions in training, technology
infrastructure and software development (Whattananarong, 2004).

Issues in the development of integrated IT systems

The research literature on the introduction of integrated IT systems into
Western higher education institutions since the late eighties and early
nineties is replete with instances of the tensions and conflicts that
accompany their introduction. While these effects may not necessarily be
mirrored in equivalent developments in Thai institutions (since the
technological sophistication of systems is far greater now), they may
illustrate the kinds of issues to be faced. The Thai research on the same
issues is beginning to appear in the Thai and English language literature.
Our focus was upon what factors affected the initial development of IT
services in educational institutions.

When IT services are integrated into the functions of an institution, the first
kind of pressure experienced appears to be upon staff in their role
performance, in the perception they have of the adequacy of their
knowledge and skill base, and in their status relationships (Collis & van der
Wende, 2002; Bain, 2004). Institutions experience a high demand for
increased training and support for staff and students (Oates, 2001) and
pressure upon budgets to provide training and appropriate infrastructure
to support the new innovation (Poole, 1997). Training needs to be tailored
to the specific needs of the learners (McNaught, Phillips, Rossiter & Winn,
2000), and even then is not effective unless it meets the personal and
organisational expectations (Pressman, 1997; Oates, 2001; Kenny, 2004).
Increasing the skill levels of some creates a powerful division between IT
literate and semi- or non-literate staff and students, and tends to alienate or
disempower the less competent (Murphy, 1987; Green & Bigum, 1992). The
less technically competent may often include senior institute personnel
whose lack of skill makes it difficult for them to contribute effectively to
decision making processes in regard to IT policy and development (Yetton,
1997; Laurillard & Margetson, 1997; Poole, 1997; Prpic & Kanjanapan-
yakom, 2004). In Thailand in particular, the presence of more IT literate
junior staff in decision making forums may unsettle the position and
authority of their less competent superiors (Waterworth & Tesaputa, 1999;
Prpic & Kanjanapanyakom, 2004; Gray & Sanzogni, 2004). As staff cope
with new IT systems, roles change and new roles are created as others
disappear, often destabilising existing hierarchical staff structures
(Murphy, 1987; Poole, 1997).

As IT services develop, institutions face further challenges in the way they
structure or restructure the organisation, manage staff and promote the
academic purposes of the institution. IT facilities may be introduced in a



514 Australasian Journal of Educational Technology, 2005, 21(4)

haphazard and uncoordinated way across an institution and the need to
amalgamate services to make more judicious and economic use of them
eventually becomes apparent (Neff, 1985). The functional links between
previously discrete units in the institution are merged through a network
and in themselves, create further inter-divisional tensions (Bailey, Bromage
& Creer, 2000; Kennedy, Webster, Benson, James & Bailey, 2002; Katz &
Salaway, 2004). The network combines the authority structure,
administrative organisation, research infrastructure and teaching systems
(Gibson, 1995; Kahn, 1997; Relan & Gillani, 1997; Freeman, 1997; Venables,
1998; Bennett, Priest & Macpherson, 1999). The web becomes available for
educationally sound integration into the teaching system (Intaganok, 2001;
Waterworth, Segrave & Warren, 2001; Suangpang & Petocz, 2004; Evans &
Gunter, 2004).

Method

Our study of the literature, and our combined experience of working
within a range of institutions in the West and South East Asia, indicated
that these effects might be observed in Thai institutions as they worked
through the same processes in the integration of IT services in their
institutions. We were interested in testing such a proposition in this project.

We wanted to address our research question by drawing data from a
number of sources and of a variety of types. We felt that computer usage
by staff and students should be measured in quantitative as well as
qualitative ways to provide us with a complete picture of the extent and
quality of usage. We decided to survey students from each of the five
faculties from undergraduate and graduate classes with studies in both
computer intensive and non-computer intensive courses. We selected staff
from each of the faculties who were knowledgeable about computer use
within their faculties and invited them to join a focus group discussion. We
interviewed management personnel on their opinions of the qualities of the
current provision of IT services and their vision for future development of
services.

IT services at the Institute

Surin is five hours by road from Bangkok in the economically poor region
of southern Isaan. The Surin Province borders Cambodia and more than 60
per cent of the local population is ethnically Khmer, being Thai second
language speakers, and often experiencing disadvantaged schooling. The
Institute is a major organisation in the province and entry to it is highly
prized by local students. It has a student population of 7,334 and staff
(including both academic and administrative staff) of 335. It offers courses
in education and related disciplines at the central campus in Surin and in



Intaganok, Waterworth and Srisamai 515

outlying places in surrounding provinces. None of its courses are offered in
off campus or online mode.

The Computer Centre at the institute is in its infancy having been
established in 1997 (along with computer centres in other Rajabhat
Institutes). It has a digital alpha server, digital router and 40 computers
under its direct management and a further 300 or so computers in various
sections of the campus linked to its server. The Centre consists of an
administrative office, a laboratory and a lecture room. There are further
computer classrooms throughout the faculties which serve particular
faculty functions and these are not managed by the Computer Centre. A
local area network (LAN) was established in 1999 with links from the
Computer Centre to ten other areas. All networked computers provide
unrestricted and unrecorded access to the Internet, although off site
connection to the network is not possible at this stage. As many as 25.6
percent of computers are not linked to the LAN.

The Computer Centre directly employs four staff, one of whom (the
Computer Centre Manager) has a full time teaching load. The Centre is
supported by a network of interested and knowledgeable academic staff
who offer their time voluntarily to the Computer Centre. Moreover, some
of these staff form the Computer Centre Committee, an advisory committee
to the Computer Centre Manager.

Results

Student questionnaire

The questionnaire to students was distributed in class to all students in the
sample in the same teaching week. The questionnaire was composed in the
Thai language and data entry (using SPSS) was also done in Thai. There
were 187 respondents (a 100 per cent response rate) of whom 56.7 per cent
were male and 43.3 female. The strong male representation was partly due
to the fact that one faculty, Industrial Technology, has only male students.
Males were therefore slightly over represented in the sample. The age
distribution of the sample was fairly typical of the population from which
the sample was drawn with 42.5 per cent of the sample being 20 or under
and 41.9 per cent being between 21 and 25. The sample was drawn from 2-
year Certificate and Diploma courses (34.4 per cent), 4-year undergraduate
Degree courses (48.4 per cent) and 2-year graduate Masters courses (17.2)
which again was fairly typical of the population from which the sample
was drawn. The diploma and graduate level students were slightly over
represented in the sample but this was thought to be insignificant.

Table 1 shows the Faculties from which respondents came. Each of the five
faculties was represented in the sample with the largest group (34.1 per



516 Australasian Journal of Educational Technology, 2005, 21(4)

cent) coming from the Faculty of Industrial Technology. No faculty
strongly dominated the sample. The sample from the Faculties of
Education and Humanities and Social Sciences contained only graduate
students. They were the only faculties with graduate programs. Overall,
graduate students are not strongly represented in the institute and this was
reflected in the sample.

Table 1: Faculty of respondent (N=186)

Faculty Number Percent
Education 14* 7.6
Humanities and Social Sciences 19* 10.3
Science and Technology 38 20.5
Management Sciences 51 27.6
Industrial Technology 63 34.1

* This number represented graduate level students only

Student use of computers

Students used the computers at the institute (outside normal classroom
activities) at various intervals of time as shown in Table 2.

Table 2: Frequency of computer use
(excluding regular classes) (N=184)

Frequency of use Number Percent
Everyday 10 5.4
Once every 2-3 days 30 16.3
Once a week 22 12.0
Once every 2-3 weeks 18 9.8
Once a month 7 3.8
Rarely use 54 29.3
Never use 43 23.4

A surprisingly large number of students ‘rarely’ or ‘never’ used computers
at the institute – as many as 52.7 per cent. The group that never used the
computers had their responses eliminated from the analysis of questions on
the quality of computer use since their responses may have skewed the
nature of knowledgeable responses, that is, from Tables 3 and 4. Computer
use was not extensive amongst other students as well, with only 5.4 per
cent using computers for any purposes every day.

Measures of significance showed that there was no relationship between
the age of students and the regularity with which they used computers.
Use of computers was so spasmodic that no patterns across age groups
emerged in this study.



Intaganok, Waterworth and Srisamai 517

Table 3: Time span of computer use per time
(excluding regular classes) (N = 131)

Time span of use Number Percent
Less than 10 minutes 21 16.0
10-30 minutes 36 27.5
31 minutes to 1 hour 45 34.4
Above one hour 29 22.1

Table 3 shows the amount of time students spent when using computers at
the Institute. Most students used the computers for between 30 minutes
and one hour (34.4 per cent). The vast majority of use, at 77.9 per cent, was
for less than one hour indicating that there was a constant turnover of
student users at the computers. Student use of the computers was therefore
economical and this allowed more users to benefit from the facilities
provided.

Our project focused attention on the educational uses of IT facilities
compared to recreational use. Table 4 shows that the majority of use of
computers in students’ free time was not associated with educational tasks.

Table 4: Purposes of computer use (N=131)

Very often and
Sometimes NeverPurpose of use

N Percent N Percent
Search information from Internet 100 76.3 31 23.7
Check information from RIS web page 99 75.6 32 24.4
Typing report 96 73.3 35 26.7
Working on class assignment 88 67.2 43 32.8
Send or receive emails from friends 83 63.4 48 36.6
Chat room 76 58.0 55 42.0
Play games 70 53.4 61 46.6
Email to lecturers 38 29.0 93 71.0
ICQ 31 23.6 100 76.3
Online conference or meeting 4 3.1 127 96.9

For the purposes of this analysis, the following tasks were considered
educational (with the percentage of students who performed these
functions ‘sometimes’ or ‘very often’ shown in brackets after each factor).

• searching for information on the Internet (76.3%) a task not necessarily
associated with educational purposes

• consulting the Institute’s web page (75.6%)
• typing reports (73.3%)
• working on class assignments (67.2%)



518 Australasian Journal of Educational Technology, 2005, 21(4)

• sending emails to lecturers (29.0%)
• conferencing (3.1%; surprisingly, a facility not available within the

institute when the survey was done.

The most common uses of the system were for routine secretarial or
consulting tasks – not those associated with academic communication or
discourse except for the search function. The questionnaire did not
distinguish between searching for academic or recreational purposes but
we suspect that most of the searching may have been related to the latter.
There were no measures of significance between types of students on any
one of these factors (using Spearman’s Rank Order correlation with a
measure of significance at the 0.05 level). In particular, regularity of use
was not associated with any particular type of educational use of facilities.
The way IT was used in learning in a Thai higher educational institution
was not addressed in this research.

Recreational use of the IT facilities was high with larger numbers of
students commonly using the facilities for these reasons. The percentage
making recreational use of facilities ‘sometimes’ or ‘very often’ for each
item was

• sending or receiving email from friends (63.4%)
• chat room (58.0%)
• playing games (53.4%)
• ICQ (23.6%)

The use of these functions was of course, proportionate to students’
knowledge and skill in using these functions, not simply in their choice of
use of the function. ICQ usage was probably less well known by students
and the usage of it was therefore lower. The use of communication through
emailing was quite high and indicates the potential to use this function
educationally. Since Internet access from home was most uncommon for
students, it was not surprising that emailing functions were well used at
the institute.

Table 5: Student opinions on areas for future development

Desired improvement N
‘Strongly

agree’ and
‘Agree’

‘Strongly
agree’ only

‘Disagree’ or
‘Strongly
disagree’

More computer laboratories 178 84.0 71.8 5.5
Extend opening hours of labs beyond
4.20 pm

177 42.8 18.3 28.3

More instruction using computers 117 39.4 10.6 19.4
Offsite access 176 39.4 18.9 26.1
More training for students 176 38.5 18.4 27.4
More lecturers to use computers in
their teaching

177 24.4 12.8 50.0



Intaganok, Waterworth and Srisamai 519

Students indicated their preferences for increased IT facilities and services
and their responses are shown in Table 5. The overwhelming perceived
need was for more computer laboratories to be provided. The overbooking
of facilities and crowding at various times during the day was obviously
found to be annoying for students. As student usage increases in the next
few years, the current facilities will be further overtaxed and this request
for more facilities will need to be met. Undergraduate students were
significantly more likely to want greater access to laboratories than
graduate students. This was an opinion expressed on the basis of
experienced need, since undergraduate students were more likely to
experience the large demand for facilities than the graduate (in service)
students. The other possible developments to the IT services were less
strongly affirmed, but still remained significant. The next most felt need
was for extended opening hours for laboratories. At present, facilities are
not open after 4.20 pm or on weekends, despite the fact that all graduate
classes are held on weekends. Graduate students were significantly more
likely to want their lecturers to use computers in their teaching
presentations.

Interviews with key institute personnel

We interviewed the three most senior and influential members of the
management team of the Institute who held direct responsibility for the
operation of IT services. Interviews were conducted in a combination of
English and Thai with the three researchers present at each interview. Two
of the senior personnel were fluent in English and one was not and
questions were asked first in English and then Thai. Responses were
recorded in writing in both English and Thai. We were interested in the
perceptions these key individuals had of the strategies, policies and
procedures used in IT services. We focused therefore on the issues which
the Institute was tackling in providing services and in seeking to improve
those services. The opinions of these staff were regarded as significant in
shaping policy as well as approving strategies for development of IT
services.

A number of issues appeared to emerge in the interviews as the major
issues with which the Institute was grappling

1. Maximising the system

While tremendous progress had been made in building up IT services, the
system was not used by staff and students to its fullest extent.

Our system is running efficiently and we are able to integrate new
technology and software into the system quite well. Computer Centre Manager



520 Australasian Journal of Educational Technology, 2005, 21(4)

We can cope with IT changes at RIS and we can learn more about making
more extensive use of the system. Institute Manager A

The senior management were happy with the progress that had been made
in the introduction of the system. Yet the system was not being used to its
fullest extent. While there was scope for better use of the system, certain
impediments to its use existed, including the separate development of
departmental facilities and the lack of cooperation between departments in
the use of these facilities.

Each department has its own computer network, developed separately
without reference to a main plan. Computer Centre Manager

The Computer Centre Manager saw this as a serious problem that limited
resource access rather than increasing it. Separate development may have
served specialised departmental needs, but the lack of an overall
developmental strategy encouraged unwise spending of limited funding,
duplication of systems and facilities and prevention of purchase of basic or
fundamental hardware or software. This problem was particularly evident
in the limited cooperation between the Computer Centre and the Library.
Because their functions were conceived separately, separate development
of facilities has been allowed to occur. Cooperation was limited to the
provision, by the Computer Centre, of networked computers to the Library,
while the strategic development of storage, collection and distribution
facilities between the two divisions did not occur. In addition, while
faculties could operate networks independently of each other, an overall
policy that the network be owned and managed centrally appeared not to
have effect.

2. Maximising educational and administrative functions

Staff and students were unlikely to make maximal use of the IT services
offered by the institute because of a number of factors. Only a small
percentage of academic staff used computers in their academic work or
included use of computers in their courses. This was because of
unfamiliarity with the system, lack of confidence in the system (hardware)
and a sense of lack of necessity to use the IT services.

Most staff have a computer on their desks but they only use them for word
processing – not even for emailing. Institute Manager A

Staff expertise was also said to be limited so that the capacity to use e-
learning was thought to be confined to the use of commercially produced
programs.

As a Rajabhat Institute, we have no power to be the producers of CD Roms
and e-learning, only users. Institute Manager A



Intaganok, Waterworth and Srisamai 521

Despite this opinion, staff and students were producing CDs and e-
learning programs in certain fields. Students were also seen by the senior
managers to be limited in their competence to use computers.

Students have poorer achievement levels to enter Rajabhat Institutes than to
universities and their self motivation in using computers is therefore lower.
Many of our students come from very poor families. Less than 10 per cent
have a computer at home and less than 5 per cent would be connected to the
Internet at home. Yet they all have a need to make use of IT while at the
institute. Institute Manager A

Our students, even at postgraduate level have a poor grasp of English and
are therefore limited in their use of English language based materials and
resources available through the web. Institute Manager B

While there were, by then, several Thai language search engines, the
number of scholarly materials available through them was far less
extensive than the English language based materials.

Opinions on the administrative functions available through the system
varied, with one saying that many functions were now available and
another that systems were yet to be installed. This betrayed a degree of
uncertainty among senior staff about existing, and soon to be available,
administrative functions.

3. Making best use of limited financial resources

Government funding was available for special purchases of hardware,
software and services and for recurrent spending, but it was severely
limited considering other institutional demands. Internet access was
provided through these funds with no download limits, promoting
haphazard and undirected use of the service.

We are a small college with poor students and lower fees than other
Rajabhat Institutes. We don’t receive much in fees or from government
sources. Institute Manager A

A proportion of student fees go to specified divisions within the institute but
under Rajabhat Council rules, none can be allocated to IT services. Computer
Centre Manager

Limited budgets caused a number of problems in the provision of IT
services. Apart from limiting purchases and maintenance, they prevented
the acquisition of sufficient protection and security of services, created an
acceptance of pirated or inferior software and limited the availability of
training services for students and staff. The Institute then had a policy to
regularise the use of legal software and install protection on the LAN. The



522 Australasian Journal of Educational Technology, 2005, 21(4)

Institute had accepted responsibility for developing an awareness of local
Indochinese cultures and languages – some of which were becoming
extinct – and it saw its developing expertise in local culture as something to
be recorded, studied, preserved and communicated. It was the President’s
wish that IT services be used in this process of preservation and
dissemination.

4. Standardising the provision of IT services across the Institute

The Institute had not developed clearly articulated or widely agreed
strategies or policies for the development of IT services. Decisions about
the direction of policy development had been made progressively in
response to funding strictures, Rajabhat Council decisions, faculty needs,
and the influence of key decision makers.

Most policy decisions are budget driven. Institute Manager A

We do not have time to discuss policy with high ranking staff and there
probably is not sufficient communication between the Computer Centre and
Senior Management. I have a ‘mission’ or a ‘plan’ of what I want to achieve
in the Computer Centre and we have a Computer Centre Committee to
discuss the possibilities of the future. Computer Centre Manager

As IT services expanded, there might have been an increasing need for the
staging of growth targets and training targets to eliminate wastage and to
focus development.

Staff focus group findings

Nominated faculty representatives attended a focus group, having prior
notice of the group discussion topics, namely, the use of IT in instruction,
problems and concerns of academic staff on the use of IT, and future
development of IT services at the institute. Focus group research
procedures were explained to the group at the beginning of the session and
the notion of participant agreement on key points was stressed. Invitations
to the participants to join the focus group and notification of the topic
questions were in the Thai language. The focus discussion was conducted
in English with Thai interpretation. Focus group agreements were recorded
on a whiteboard in Thai and English.

The focus group provided more comprehensive insights into the use of IT
services for academic staff and students and described the better and less
helpful aspects of IT services at present. They were able to articulate the
factors which assisted the introduction and use of IT services and those
factors working against effective use.



Intaganok, Waterworth and Srisamai 523

Factors which assisted or promoted the better use of IT services by
academic staff were:

• having better IT competence
• teaching or working in the IT field
• selecting easier to use functions such as word processing and PowerPoint
• possessing (or working towards) an English language based higher

degree
• being familiar with the range of functions of IT services and the

appropriateness of certain functions for day to day work.

PowerPoint presentations are generally used in some of our teaching. Focus
group participant C

Factors which assisted or promoted better use of IT services by students
were:

• taking a course in the IT field
• being able to read in English
• appreciating the suitability of particular IT functions to their study area.

Factors which blocked or discouraged academic staff from using IT services
more efficiently were:

• the lack of an institutional expectation that IT services be used in day-to-
day work of staff

• an absence of a large core of staff who commonly use IT services in their
day to day work – especially in communication and data storage and
manipulation

• a lack of appreciation of the capabilities and value of IT services to
academic functions

• inadequacies of the system such as slowness of downloads, extensive
downtime and insufficient number of computers for staff

• the high work load of academic staff (some working a seven day week)

Factors which blocked or discouraged students from using the IT services
more efficiently were:

• a lack of sufficient motivation to use IT services
• the lack of pressure or influence from lecturers for students to make

greater use of facilities
• heavy timetables for students and overbooking of IT labs at times when

students had time to work in the labs
• restricted hours of opening for IT labs.

Academic staff were hampered in their use of IT by
• their own lack of skill in using computers



524 Australasian Journal of Educational Technology, 2005, 21(4)

• the lack of adequate professional development for staff in using IT
• the lack of sufficient incentive for staff to make themselves IT literate
• the lack of English language to enable them to use web based

communication and perform searches for information.

We strongly feel that language (English) is a major barrier for us in using IT.
Focus group participant D

A small minority of staff was highly and increasingly well skilled in using
IT and they were able to use digital technology in their teaching and
encourage students to use computers in assessed work.

Most of us have our own email addresses but we don’t use them. There is no
need to communicate with others and no one sends us messages. Focus group
participant E

Academic scholarly work was again rarely enhanced by IT for most staff.
Where it was used in scholarly activities, it was limited to mainly searching
and did not include communication.

Internet is used mainly to obtain learning resources but not as a
communication tool. Focus group participant F

The staff suggested that there be a computer on each academic staff
member’s desk, or, short of that, the supply of Internet capable facilities to
each faculty. The Internet connection was also highly unstable and slow. It
was often unavailable for periods of a few days on a regular basis because
of network or provider problems. Even though most staff had Internet
addresses, inter-staff communication was severely limited and was
undertaken only by the ten to twelve highly committed staff out of more
than 300 academic staff.

Staff were able to use the LAN for a number of administrative tasks such as
obtaining student lists, timetable and resource allocation, human resources
information, lists of texts and course summaries. Staff stated that student
access was generally restricted because of crowded and overbooked
laboratory facilities. Student use was confined to certain student subgroups
and training and motivation for all students should be a high priority.

Discussion

Cultural and contextual factors

Any new technological innovation is certain to impact different
populations in different ways, if only because of the contextual differences
within which the innovation has been introduced. The local institutional



Intaganok, Waterworth and Srisamai 525

and cultural environments in this case study had a profound impact upon
the way IT services were introduced to this institution. The size of the
institution, its location in an economically and educationally
disadvantaged area in north eastern Thailand and consequently, its limited
financial resources were major factors affecting the introduction of IT
services. Although the institution had a desire to capture and communicate
the cultural uniqueness of the Institute’s geographical location through use
of IT services, the limited budget within which the institution worked
prevented the adequate development of IT services to meet such a
desirable aim. IT services were barely able to meet teaching and
administrative needs. Extensive student poverty made it impossible for
students to compensate for the Institute’s sparse resources by use of
computers at home (let alone those connected to the Internet). The lack of
English competence amongst staff and students and the inadequate
provision of Thai language educational resources on the Internet rendered
Internet connection a less desirable and infrequently accessed service.

Limited IT literacy

This project clearly demonstrated the striking differences between people
(both staff and students) in their IT literacy and the impact of those
differences upon attitudes towards the value and use of IT services. There
were significant factors involved in people becoming more IT literate. The
more competent users were generally working in the IT area or in a field
where IT had to be used more frequently, had a better understanding of
English (from either learning it or studying in it), or had a more
comprehensive understanding of the range of IT services available and of
how IT functions related to their academic or administrative work.

Development of strategies and policies in IT management and use

Strategies for the introduction and use of standardised IT services in the
Institute were now gradually having effect in contrast to the haphazard
development of non-integrated systems of the last few years. There was
still resistance to the notion of an integrated system and to centralised
control and management of facilities and resources. Policies and protocols
were also being slowly introduced to provide a consistent, fair and efficient
service to staff and students. At the moment, policy on the development of
IT services was still piecemeal and subject to change at short notice. There
was still the opportunity for the independent or maverick development of
IT resources and the direction of development was still subject to one off
budget decisions.



526 Australasian Journal of Educational Technology, 2005, 21(4)

Progress in the introduction of IT services

Our earlier review of the literature reported on the kinds of issues which
arose when institutions began to develop their IT services. We noted a
number of consequences for the teaching and learning environment and
the management and administrative structures of institutions. Two of the
issues raised in the literature were clearly demonstrated in our case study
as discussed above, namely, the existence of an ever widening gap between
IT literate and illiterate people at the institution and the haphazard and un-
unified development of IT facilities. Other issues identified in the literature
were beginning to become apparent at our case study institution.

These were an increasing need for training in IT, increased functions and
roles for the Computer Centre and Library, and revision of role
descriptions and statuses of IT personnel. While we found a great need for
IT training, we did not detect a large demand for training across the
institution. Some realised their need for training but others expressed a
simple desire to know more without quite knowing what they needed.
However, the other issues we identified in our literature search as being
significant markers of institutions emerging from the predigital age, were
not apparent in our case study. These issues related to the use of the
network to integrate the functions of teaching, learning, research and
administration, the merging of teaching and learning functions, increasing
need to use the web in teaching and administration, introduction of new
and revised staff and student protocols and increased inter-institutional
cooperation and competition.

These analyses led us to consider whether there might be some kind of
hierarchy of experiences in an institution coming to terms with IT services
and in understanding the new possibilities and capabilities of IT. We
developed, therefore, a model (see Table 6) to attempt to explain the
progression towards a digitally competent institution, hoping that such a
model would be useful in explaining developmental issues in other places
– not simply in our case study institution. We suggest that the first level of
issues faced by institutions arise from the ‘shock of the new’. As the
technology becomes better known and begins to intrude into the operation
of an organisation, certain instabilities begin to emerge. Some people
become the new experts and others are by-passed. Some grasp the new
technology with vigor while others deliberately ignore it. This leads to a
sporadic or uneven development and use of the new technology and led us
to call this stage the Idiosyncratic Stage.

The second level of issues arises from the formal acceptance of the
innovation by the organisation and recognition of the need for the
innovation. At this stage, the innovation is formally accepted as essential to



Intaganok, Waterworth and Srisamai 527

the organisation and the destabilisation that the innovation brings is
recognised. There is a formal endorsement of the innovation by the
organisation and an attempt by it to have members retrained to use the
technology more efficiently. At this stage, cynicism about the innovation is
and remains quite prevalent, and uncertainty about the impact of the
innovation upon authority structures within the institution is evident. We
have labeled this level the Partial Stage, because even though the innovation
has been adopted by the organisation, there is widespread skepticism
about the effectiveness of the innovation and the cost benefits the
innovation is said to bring to the organisation.

Table 6: Introducing IT services to an institution

Stage Characteristics
Level of

acceptance Issues of adoption

1 Idiosyn-
cratic

Uneven
acceptance of
innovation. The
IT literate
display an
evangelistic zeal
for the
innovation

Individual Institution supports the establishment
of non-integrated, unlinkable facilities
and software.
Need for central management of IT
services is recognised and Computer
Centre is established with limited
funding.
Local Area Network (LAN) with
limited functions is established
Non-IT literate people feel alienated
and may attempt to reduce the
innovation’s acceptance.

2 Partial Official
sanctioning of
the innovation
but widespread
mistrust of the
innovation and
active resistance
to the
innovation by
some

Individual
and
institut-
ional

Appropriateness of IT applications to
education and administration is
partially demonstrated.
Need for large scale training for staff is
recognised but IT literate are most
likely to attend. Training budget is
limited.
Manual roles in administration begin to
disappear. Managerial roles begin to
include production and use of
organisational data.
Roles of Computer Centre and Library
expand to include superior methods of
storage, manipulation and
dissemination of information, and to
provide better support for media
production and educational
development.
LAN expands to include better
communication functions and to
integrate teaching, research and
administration.



528 Australasian Journal of Educational Technology, 2005, 21(4)

3 Institut-
ionalised

Integration of
innovation into
formal and legal
processes of
institution

Institut-
ional

LAN is used for official notification of
matters to staff and students.
All staff and students are expected to
use the LAN in educational and
institutional communication.
All staff and students are provided
with LAN accounts and usage is
monitored. Download limits are
imposed to increase speed and
efficiency of LAN.
IT is commonly used in teaching in all
courses and all subjects
Web based learning is used in teaching
in all courses and all subjects.
Web based literature reviews are
commonly used in academic research
by staff and postgrad students.
The institution’s web page becomes
interactive (or a portal is established)
with variable password protected
access and administrative functions are
performed through the web

The third level of issues arises out of the formalisation and legitimisation of
the innovation within the normal day to day processes of the institution
and the procedural and legal structures of the institution. At this stage,
acceptance and competent use of the innovation is built into the normal
functions of the institution, all members of the institution are expected to
use them and the competent use of the technology is linked to successful
performance of roles within the institution.

Conclusion

This case study is not simply the story of the way a technical innovation
can intrude into an organisation and cause values, people and systems to
change. Since the innovation we were studying concerned the fundamental
perceptions we have about education, administration, media, scholarship,
organisations and work, we were examining changes to lifestyles and
personal identities in reporting this project. To a certain extent, this became
a study on the impact of change upon human existence. It was important
therefore, that we attempted to trace the way change impacted people in
different ways and how an organisation attempted to control and manage
that impact. Moreover, it was important to see this research as a way in
which cultures attempt to protect themselves and to orchestrate change.
Within those cultures, of course, the edifices of power relationships were to
be challenged or shielded. The natural tensions within cultures would be
revealed in a study of this kind as power or significance shifted from one



Intaganok, Waterworth and Srisamai 529

individual to another, from one group to another and from one set of
values to another. We emphasised the need for the creation of a particular
kind of digital community within which ideas are shared, mentoring and
learning take place, and interest and enthusiasm are generated. At the
moment, this community exists in a very small way amongst a few
committed staff at our case study institution, but we see its growth as
essential to provide an environment of learning and mutual support.

Our most significant outcome, however, was to describe the introduction of
IT services in terms of a staged process, firstly affecting particular
adventurous individuals and eventually gaining overall acceptance and
indeed legitimacy from the organisation and consequently, impacting all
people within the organisation. We suggested that a three phase model best
described the process of change, and that most institutions would find
these stages reflected in their experience. Our case study institution was,
according to our findings, moving between stages 1 and 2. Many questions
relating to the educational use of IT in Thailand and the way staff and
students in higher education institutions adapt to the use of IT could not be
posed in this research project and might form the basis for future research.

Acknowledgements

The authors gratefully acknowledge research funding from the Rajabhat
University Surindra in Surin to support the project described here.

References

Bailey, N., Bromage, A. & Creer, A. (2000). My.university: Personalized portals in
Perl. In J. Orwant (Ed), Proceedings of the Perl Conference 4.0, O’Reilly and
Associates, Monterey, 51-59.

Bain, A. (2004). Secondary school reform and technology planning: Lessons learned
from a ten year school reform initiative. Australasian Journal of Educational
Technology, 20(2), 149-170. http://www.ascilite.org.au/ajet/ajet20/bain.html

Bennett, S., Priest, A. & Macpherson, C. (1999). Learning about online learning: An
approach to staff development for university teachers. Australian Journal of
Educational Technology, 15(3), 207-221.
http://www.ascilite.org.au/ajet/ajet15/bennett.html

Charmonman, S. & Chorpothong, S. (2002). Strategies for developing
“autonomous” universities and colleges: Meeting the goals of the Ninth
National Education Development Plan. Paper presented at a conference
Strategies for developing ‘autonomous’ universities and colleges: Meeting the goals of
the Ninth National Education Development Plan. Faculty of Education, Assumption
University and College of Education, Washington State University at
Assumption University, Bang Na.



530 Australasian Journal of Educational Technology, 2005, 21(4)

Collis, B. & van der Wende, M. (Eds) (2002). Models of technology and change in
higher education. Center for Higher Education Policy Studies, University of
Twente, Enschede [viewed 31 Oct 2005]
http://www.utwente.nl/cheps/documenten/ictrapport.pdf

Cooley, M. (1992). Human-centred education. In C. Bigum & B. Green (Eds),
Understanding the new information technologies in education. Centre for Studies in
Information Technologies and Education, Deakin University, Geelong.

Corderoy, R. (Ed) (1998). Flexibility: The next wave? Proceedings of the 15th
ASCILITE, University of Wollongong, Wollongong. [verified 31 Oct 2005]
http://www.ascilite.org.au/conferences/woolongong98/ascpapers98.html

Evans, B. P. & Gunter, G. A. (2004). A catalyst for change: Influencing teacher
technology proficiency. Journal of Educational Media and Library Sciences, 41(3),
325-336.

Freeman, M. A. (1997). Flexibility in access, interaction and assessment: The case for
web-based teaching programs. Australian Journal of Educational Technology, 13(1),
23-39. http://www.ascilite.org.au/ajet/ajet13/freeman.html

Gibson, J. (1997). Evaluation of a trial of Internet teaching in TAFE NSW.
Proceedings AusWeb97. http://ausweb.scu.edu.au/aw97/papers/gibson/paper.htm

Gray, H. & Sanzogni, L. (2004). Technology leapfrogging in Thailand: Issues for the
support of e-commerce infrastructure. Electronic Journal on Information Systems in
Developing Countries, 16(3) 1-26. [viewed 31 Oct 2005]
http://www.is.cityu.edu.hk/research/ejisdc/vol16/v16r3.pdf

Green, B. & Bigum, C. (1992). Introduction. In C. Bigum & B. Green (Eds),
Understanding the new information technologies in education. Centre for Studies in
Information Technologies and Education, Deakin University, Geelong.

Intaganok, P. (2001). A comparison of instruction through Internet with and
without informing student surfing paths upon learning achievement of upper
secondary school students with different learning styles’ education. In
Lertchalolarn, C. et al (Eds), Reforming teacher education for the new millennium:
Searching for new dimensions. Proceedings of the International Conference,
Chulalongkorn University in association with SEAMEO RIHED, Bangkok, July
2000.

Kahn, B. H. (1997). Web-based instruction (WBI): What is it and why is it? In B. H.
Kahn, Web-based Instruction. Educational Technology Publications, Englewood
Cliffs NJ.

Katz, R. N. & Salaway, G. (2004). Information technology leadership in higher
education: The condition of the community. Educause Center for Applied Research.
[viewed 31 Oct 2005]. http://www.educause.edu/ers0401/

Kennedy, D. M., Webster, L., Benson, R., James, D. & Bailey, N. (2002). My.monash:
Supporting students and staff in teaching, learning and administration.
Australian Journal of Educational Technology, 18(1), 24-39.
http://www.ascilite.org.au/ajet/ajet18/kennedy.html



Intaganok, Waterworth and Srisamai 531

Kenny, J. (2004). A study of educational technology project management in
Australian universities. Australasian Journal of Educational Technology, 20(3), 388-
404. http://www.ascilite.org.au/ajet/ajet20/kenny.html

Laurillard, D. & Margetson, D. (1997). Introducing a flexible learning methodology:
Discussion paper Number 7. Griffith Institute for Higher Education, Griffith
University, Brisbane. [for part availability, see http://www.griffith.edu.au/centre/
gihe/teachinglearning/flexiblelearning/modules/whatismodule/Laurillard.PDF]

McMahon, M. (1997). Social constructivism and the World Wide Web - A paradigm
for learning. In R. Kevill, R. Oliver & R. Phillips (Eds), What works and why.
Proceedings of ASCILITE 1997 Conference, 411-417.
http://www.ascilite.org.au/conferences/perth97/papers/Mcmahon/Mcmahon.html

McNaught, C., Phillips, R., Rossiter, D. & Winn, J. (2000). Developing a framework
for a usable and useful inventory of computer-facilitated learning and support
materials in Australian universities. Evaluations and Investigations Report
99/11, Department of Employment, Education, Training and Youth Affairs,
Canberra. [viewed 1 Nov 2003, verified 31 Oct 2005]
http://www.dest.gov.au/archive/highered/eippubs/eip99-11/split.htm

Murphy, G. (1987). The impact of new communication technologies on role and
function in traditional educational support services. Australian Journal of
Eductional Technology, 3(1), 25-32.
http://www.ascilite.org.au/ajet/ajet3/murphy.html

Neff, R. K. (1985). Merging libraries and computer centres: Manifest destiny or
manifestly deranged? An academic services perspective. EDUCOM Bulletin,
Winter, 8-10.

Oates, R. H. (2001). What works for teachers: New approaches to technology
professional development. Electronic School.com. [viewed 31 Oct 2005]
http://www.electronic-school.com/2002/01/0102f2.html

Ottmann, T. & Tomek, I. (Eds) (1998). Proceedings of ED-MEDIA/ED-TELECOM 98,
World Conference in Educational Multimedia and Hypermedia and World
Conference on Educational Telecommunications, Freiburg.

Poole, B. J. (1997). Education for an Information Age: Teaching in the Computerized
Classroom, Second edition. McGraw Hill, New York.

Pressman, R. S. (1997). A Developer’s Handbook to Interactive Multimedia: A Practical
Guide for Educational Applications. Kogan Page, London.

Prpic, J. K. & Kanjananapanyakom, R. (2004). The impact of cultural values and
norms on higher education in Thailand. Proceedings HERDSA Conference 2004.
http://herdsa2004.curtin.edu.my/Contributions/NRPapers/P064-jt.pdf
[viewed 31 Oct 2005]

Relan, A. & Gillani, B. (1997). Web-based instruction and the traditional classroom:
Similarities and differences. In B.H. Kahn (Ed), Web-based Instruction.
Educational Technology Publications, Englewood Cliffs NJ.

Rossiter, D. (1997). Future uses of digital technologies in teaching and learning in
higher education: An evaluation. In What works and why. Proceedings ASCILITE
Conference 1997. Perth.
http://www.ascilite.org.au/conferences/perth97/papers/Rossiter/Rossiter.html



532 Australasian Journal of Educational Technology, 2005, 21(4)

Suanpang, P., Petocz, P. & Reid, A. (2004). Relationship between learning outcomes
and online access. Australasian Journal of Educational Technology, 20(3) 371-387.
http://www.ascilite.org.au/ajet/ajet20/suanpang.html

Shotsberger, P. (1997). Emerging roles for instructors and learners in the web-based
instruction classroom. In B.H. Kahn (Ed), Web-based Instruction. Educational
Technology Publications, Englewood Cliffs NJ.

Venables, J. (1998). Graduate education on the Internet. Physics Education, 33(3), 157-
163.

Waterworth, P.G. & Tesaputa, K (1999). Issues in using computer technologies in
school administration’ Paper presented at the Fifth UNESCO-ACEID
International Conference, Bangkok, December.

Waterworth, P.G., Segrave, S. & Warren, C. (2001). New pedagogies: using
constructivist insights in developing online studies in education. In
Lertchalolarn, C. et al (Eds), Reforming Teacher Education for the New Millennium:
Searching for New Dimensions. Proceedings of the International Conference,
Chulalongkorn University in association with SEAMEO RIHED, Bangkok, July
2000.

Whattananarong, K. (2004). An experiment in the use of mobile phones for testing
at King Mongkut’s Institute of Technology, North Bangkok, Thailand. Paper
presented at the International Conference on Making Education Reform
Happen: Learning from the Asian Experience and Comparative Perspectives.
Bangkok. [viewed 31 Oct 2005]
http://www.seameo.org/vl/krismant/mobile04.pdf

Yetton, P. et al (1997). Managing the introduction of technology in the delivery and
administraton of higher education. Evaluations and Investigations Report,
Department of Employment, Education, Training and Youth Affairs, Canberra.
[viewed 1 Nov 2003, verified 31 Oct 2005]
http://www.dest.gov.au/archive/highered/eippubs/eip9703/front.htm

Dr Prachit Intaganok is the Dean, Faculty of Education at Surindra
Rajabhat University [http://www.srru.ac.th/], 186 Sirin-Prasat Road,
Muang Surin, 32000, Thailand. Email: g37pit@hotmail.com

Dr Peter Waterworth is an associate of the Faculty of Education, Deakin
University [http://www.deakin.edu.au/] in Australia and works as a
visiting lecturer and research scholar at the Surindra Rajabhat Univerity.
Address: 25 Rowitta Drive, Glen Waverley Vic 3150, Australia. Email:
petexx@deakin.edu.au

Ms Siwaporn Srisamai is a lecturer in the Communication Arts Program
in the Faculty of Management Sciences. She is currently on secondment to
work for the Peace Corp in Thailand and the US. Address: Department of
Communication Arts, Surindra Rajabhat University, 186 Sirin-Prasat
Road, Muang Surin, 32000, Thailand. Email: to_siwaporn@hotmail.com