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Technology Diffusion in theTelecommunications Services Industryof MalaysiaChan-Yuan Wonga, VGR Chandranb & Boon-Kwee Nga
a Department of Science and Technology Studies, Faculty ofScience, University of Malaya, 50603 Kuala Lumpur, Malaysiab Department of Development Studies, Faculty of Economicsand Administration, University of Malaya, 50603 Kuala Lumpur,MalaysiaPublished online: 03 Sep 2014.
To cite this article: Chan-Yuan Wong, VGR Chandran & Boon-Kwee Ng (2014): Technology Diffusionin the Telecommunications Services Industry of Malaysia, Information Technology for Development,DOI: 10.1080/02681102.2014.949611
To link to this article: http://dx.doi.org/10.1080/02681102.2014.949611
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Technology Diffusion in the Telecommunications Services Industry ofMalaysia
Chan-Yuan Wonga∗, VGR Chandranb and Boon-Kwee Nga
aDepartment of Science and Technology Studies, Faculty of Science, University of Malaya, 50603 KualaLumpur, Malaysia; bDepartment of Development Studies, Faculty of Economics and Administration,University of Malaya, 50603 Kuala Lumpur, Malaysia
This study empirically models technology diffusion and incorporates a more comprehensiveframework in understanding the diffusion process of telecommunications technology inMalaysia. We inductively assess the government’s conduct in translating the productiverents for upgrading activities. The results show that the proactive role of the governmentwhen intervening in market operations has considerably influenced the technologydiffusion process. The telecommunications services industry of Malaysia achieved acritical mass of entrepreneurs by first engaging business entrepreneurs in contract servicesfrom Malaysian Telecommunications Department, then moved to business diversification atthe end of 1970s and is now developing a market platform to furnish its sustainabletelecommunications system. We highlight positive general macro-meso views of our caseand provide salient normative principles as guides for transformational policy-making. Theprinciples discussed in this paper provide policy lessons, or at least some initial guide, forother developing economies aspiring to follow the path of technology upgrading anddevelopment.
Keywords: rents management; diffusion; normative principles; telecommunications servicesindustry; Malaysia
1. Introduction
Studies on the information society have been the subject of intense scrutiny among scholars and
policy-makers due to its potential implications on the larger society – as well as on industrial
development (Freeman & Soete, 1997; Mansell & Wehn, 1998). Indeed, the explosive growth
and development of telecommunications technology in recent decades has opened up numerous
industrial development opportunities for developing economies, particularly in the East Asian
emerging economies (see Langdale, 1997; Wong, 2002). A number of studies explored and
generalized the industrial development patterns for telecommunications technology and
described the rationale behind the success of production and diffusion of telecommunications
technology (see Ng, Lu, Li, & Chan, 2004; Frieden, 2005; Gao & Rafiq, 2009; Lee & Chan-
Olmsted, 2004; Singh, 2000). Common themes and lessons gained from this set of studies
provide useful clues and guides for those trying to organize production and diffusion of
telecommunications technology. Indeed, contribution to the literature of telecommunications
technology gained additional momentum with the use of other frameworks such as the
model of innovation system conceptualized by Edquist’s (2003) telecommunications system
of innovation (see Mani, 2007), Teece’s (1986) integration strategies for technological inno-
vation (see Krafft, 2010), Rogers’s (2003) diffusion model (see Lim, Choi, & Park, 2003)
# 2014 Commonwealth Secretariat
∗Corresponding author. Email: [email protected] Weistroffer is the accepting Associate Editor for this article.
Information Technology for Development, 2014
http://dx.doi.org/10.1080/02681102.2014.949611
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and Porter’s (1990) model of competitive advantage (see Lee & Chan-Olmsted, 2004). The
large and growing quantity of literature on telecommunications industrial development indi-
cates the paramount importance of production and diffusion of “information” and “knowledge”
for firms as well as for nations.
However, two missing elements of the previous studies should be recognized as a literature
gap. First, a large number of past studies (for example, Lee & Chan-Olmsted, 2004; Salazar,
2007; Yartey, 2008) focus on the limited aspects of political rent-seeking or political–
institutional environments, and therefore lack a more comprehensive view that allows more sys-
tematic analysis of the process of telecommunications industrial development. For instance, the
analysis of productive rent distribution and effective rent management within the context of indi-
genous industrial development is seldom included – an important element, especially in a devel-
oping country. The term “rent” is used here to describe “the income” which is above the normal
in a competitive market. It includes monopoly profits, legal and illegal transfers through certain
mechanism, profit made by innovators (some label it as Schumpeterian rent) and subsidies for
indigenous entities (learning rent) to attain net social benefit by adopting and assimilating
new technologies (see Khan, 2000). The term “rent-seeking” thus describes the activities that
seek to create or maintain rent. The government plays an important role in creating and distri-
buting progressive-type rents1 that would ultimately benefit the process of socioeconomic
development.
In articulating the significance of a national telecommunications policy for the public adop-
tion of telecommunications technology, we adopt the political–structural–historical analysis
(see Frieden, 2005; Gao & Rafiq, 2009; Painter & Wong, 2005; Salazar, 2007; Singh, 2000;
Wang, 2003), as well as the structure–conduct–performance analysis (see Lee & Chan-
Olmsted, 2004; Mesher & Zajac, 1997; Sambasivan, Wemyss, & Rose, 2010). Building
upon Khan’s (2000) conceptual model on rents, Salazar (2007) studied political–structural–
historical conditions that shape the adoption of strategic reforms of telecommunications indus-
tries in Malaysia and the Philippines. This paper expands Salazar’s findings on Malaysia’s
telecommunications industries by incorporating the scope of rent management and diffusion
cycles in the telecommunications services industry. What we attempt to add to previous
studies is a broadening of the scope of analysis beyond the limited aspect of political and insti-
tutional environments, to include rent distribution cycles in the process of upgrading and
the emergence of conglomerate firms that dominated businesses during the transition to a
knowledge-based economy.
Second, despite the continuous efforts by many countries to advance telecommunications
service industries, in order to boost economic growth and development, literature on the diffu-
sion of telecommunications technology in the Asian economies is still lacking. While the litera-
ture on “telecommunication liberalization” informs us on the generic factors that cause rapid
telecommunications technology adoption, a systematic approach with a dynamic perspective
to understand the impacts of the policy process on diffusion in the context of developing
economy is still severely lacking. For instance, consistent with Fan’s (2005) observation for
the case of Australia, Gutierrez and Berg (2000) argued that sound institutional (political democ-
racy and economic freedom) and regulatory framework (reduction of entry barriers and privati-
zation) and openness (open to trading activities) are the determinants of rapid diffusion of
telecommunications technology. Similarly, building upon the notion of telecommunication lib-
eralization, Shahiduzzaman and Alam (2014) studied the correlation relationship between infor-
mation technology (IT) capital, non-IT capital, as well as labor on growth and productivity in
Australia. They conjecture that favorable environment for business sector to adopt telecommu-
nications technology is shaped by policy reform toward market liberalization for telecommuni-
cations infrastructure in the 1990s. They argued that the reform, in return, contributed to growth
2 C.-Y. Wong et al.
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and productivity in Australia. Nevertheless, the proponents of telecommunication liberalization
appeared to have adopted a static narrative frame. Their stylized framework may have over-
looked the dimensions of evolutionary targeting (Avnimelech & Teubal, 2008) in policy pro-
cesses and its impacts on technology diffusion.
Malaysia is considered particularly relevant to this study, given the prominent transforma-
tional changes that have occurred in its telecommunications services industry (Salazar, 2007).
Thus, this paper attempts to provide a systematic examination on the evolution of telecommu-
nications in Malaysia drawing from anecdotal as well as empirical evidence, and reveal and
understand the institutional dynamics that lead to progress in the existing diffusion of telecom-
munications technology. In order to achieve this objective, the following two main research
questions were addressed: (a) What are the diffusion trends for telecommunications technology
development in Malaysian telecommunications systems? (b) How do rent-management pro-
cesses contribute to the transformation of Malaysian telecommunications systems from an
underdeveloped to a more developed system?
2. Framework and methodology
2.1. Our narrative frame
This section discusses the theoretical framework that broadens the scope of our analysis beyond
the limited aspect of political and institutional environments covered by previous studies in their
examination of the telecommunications industry’s systemic progress. We present a unitary
industrial development dynamics which is used as a narrative to articulate the evolutionary
paths of telecommunications industry of Malaysia in making their systemic changes endogen-
ous. Empirically, we attempt to capture the telecommunications services’ industrial strategies
in shaping the diffusion trajectory based on three distinct stages, in which each stage witnessed
the significant changes in telecommunications policy. The literature on management of rents
(Khan & Jomo, 2000) and diffusion promotion policy framework is used to help our study
rationalize the interaction between the private sector and the state government within the sub-
sector of telecommunications services. As a whole, the governance structure of the industry,
through the lens of rent-seeking behavior and the role of the state, provides a valuable guide
in assessing the development of the telecommunications industry. The aim of this study is to
capture the historical evolution of the telecommunications industry within the context of insti-
tutions, provider and user framework and three stages of technology industrial development that
shape the diffusion of technology. In what follows, we referred to the literature to rationalize the
dynamic interactions in telecommunications industry as shown in Figure 1. The next sub-section
deliberates the details.
Figure 1. Entities and the interacting dynamics in telecommunications industry.Source: Adapted from Gao and Rafiq (2009, Figure 2, p. 312).
Information Technology for Development 3
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2.1.1. Institutions
According to Nelson and Nelson (2002, p. 266), “institutions” is generally defined as “the set of
factors that mold and define human interaction, both within organizations and between them.”
The definition fits Williamson’s (1985) notion of modes of governance. Institutions, in William-
son’s perspective, have the ability to influence any economic activities (both behaviors of pro-
viders and users) and shape market structure of an industry. For Perez (2002), the processes of
institutional change of an economy often lead to new interdependencies among actors in an inno-
vation system. The new form of interdependence is vital in enabling an emergence of new gov-
ernance structure (or new configuration of actors) in response to a new production system in an
economy (Figure 1). However, the literatures discussed above do not capture the complicated
interactions among social identities and informal norms that are involved in creating value-
enhancing or value-reducing rents for industrial development. Khan and Jomo (2000, p. 5)
describe the term “rent” as “incomes that are above normal in a competitive market.” “Rent-
seeking” denotes “activities that seek to create, maintain or change rights and institutions on
which rents are based” (Khan & Jomo, 2000, p. 5). Some rents, for example, monopoly rent
and corruption, may lead to lost welfare and counterproductive in a process of configuring a pro-
ductive structure useful for socioeconomic development. However, we acknowledge that pro-
ductive rents such as subsidies for infant industries, Schumpeterian rent and learning rent
would imply exploitation of growth and development opportunities. Khan and Jomo (2000)
elucidated the process of how institutions and economic phenomena and conditions shape
rent-seeking activities and whether these activities create value-enhancing or value-reducing
outcomes for society. Indeed, the government of an economy can create and manage rent to
enable the national innovation system to create new industries and produce and deliver new pro-
ducts or services. Productive rents such as the government incentives to encourage private
organizations to institute research and development (R&D) routine or the government financial
scheme for high potential young start-up companies may be useful as policy tools to address
market failure problem. The term “market failure” denotes to the incomplete signaling system
resulted from the absence of future markets and “externalities of which information spillovers
are the principle exemplars” (see Dodgson, Hughes, Foster, & Metcalfe, 2011).
According to Chang (2003), the process of structural change of an economy will witness
deterioration of certain groups’ absolute and relative powers and positions in the market as a
result of asset specificity and other sources of factor immobility. The vested-interest groups
will likely resist the change and others who might benefit from the new economic paradigm
may take countermeasures. The economic development dynamism suffers if the government
fails to manage the conflict between these interest groups. This conflicting problem also leads
to potential investors not committing their resources in specific investments such as investments
in specific knowledge or new equipment that embodies the latest technology (see Amsden,
2001). Similarly, studies also proposed Weberian bureaucracies (or catalytic state as some
term it) in state governance to ensure embeddedness and avoid clientelism that hinders develop-
ment. Weberian features include meritocratic recruitment, good salaries, sanctions against vio-
lations of organizational norms and rewards for career-long performance (see Evans, 1996;
Evans & Rauch, 1999). They have administrative capacities and resources to stay autonomous
in decision-making and decisions may inherit a pro-development agenda (see Singh, 1999).
Meanwhile, Evans’ (1995, 1996) notion on “embedded autonomy” is useful to understand the
interaction between the private sector and the state government in industrial development. He
argued that a government not only needs to have roots in the society (embeddedness) but also
the will and authority (autonomy) to implement development policies in order to be effective
in its intervention (see Chang, 2006; Evans, 1995, 1996).
4 C.-Y. Wong et al.
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Therefore, strategic regulation and policies for the promotion of technological innovation are
crucial for industrial development of telecommunications, particularly in the imperfect nature of
the markets of developing economies (see Gillwald, 2005). The efforts are directed toward par-
ticular industries, firms, regions and groups in the labor market (Landesmann, 1992). These
efforts provide an avenue for firms or industries to capture learning and Schumpeterian rents
for their own benefit. In this respect, the development of an economy depends on the ability
of the state to build and manage institutional mechanisms of collective entrepreneurship to
exploit growth and development opportunities. In many industrialized economies, industrial
policy was used to drive and incentivize agents in an innovation system to capture productive
rents. The focal point of institutions for industrial development is as follows: an interventionist
state, large diversified business groups, a supply of salaried managers and engineers and
well-educated labor (see Amsden, 1989; Chandler, 1977; Wong, 2011). In this paper, we are par-
ticularly interested in rent-management process that had promoted or constrained the telecom-
munications industry of Malaysia in various ways. We explore the telecommunications-related
policy and regulatory interventions that defined the condition of market competition or liberal-
ized the market composition.
2.1.2. Providers and users
Telecommunications service providers have been playing an important role in driving telecom-
munications industrial change and development. Most of their products or services are driven by
technological innovations. In developing countries, service providers have taken a comprehen-
sive role of being the service and content providers (Gao & Rafiq, 2009). Users, on the other
hand, are the consumers of telecommunications service. They adopt and apply telecommunica-
tions technology and service for both business and leisure means. The consuming behaviors of
users are basically shaped by the market structure. In developing countries, the users are highly
price sensitive. On the other hand, many advanced countries have moved beyond this routine,
witnessing cooperation between providers and users in their market to provide services and
produce contents for new businesses (Choung, Hameed, & Ji, 2012).
Amsden and Chu (2003) stated that many industries in the developing economies (also
recognized as latecomers) of Asia sustained their manufacturing and service industrial compe-
titiveness by upgrading their performance in mid-tech industries and moving toward high-tech
sectors. The upgrading process, or the ability to adapt and adjust production or services in
response to global demand changes, requires an exploitation of different sets of competitive
assets such as production capabilities, project execution and innovation capabilities (see
Amsden, 2001) to become a global player in mid-tech industries and to compete with techno-
logically advanced industries and services. Upscaling and scoping skills for production and
modern services are central in the process of upgrading. Those firms that evolved to dominate
a new product’s life cycle would employ their finances and project execution skills to invest in
or spin off start-ups. Chandler’s (1977) studies on modern industrial enterprises in advanced
and catching-up economies showed that major sectors of technologically advanced market
economies have become dominated by conglomerate firms. Management hierarchies (hierar-
chy of middle- and top-salaried managers who monitor, supervise and coordinate the work
of the units under their control) gained importance in most mid- and hi-tech industries (see
Chandler, 1977). Indeed, Amsden (1989) and Amsden and Chu (2003) highlighted that it is
more within the interests of locally owned organizations (both private and government-
linked entities) than foreign multinationals to invest in these competitive assets. There is
higher opportunity for short-term gains of the foreign-owned entities in developing economies
than for building the competitive assets for long-term development. Therefore, a critical mass
Information Technology for Development 5
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of capable locally owned entities is a precondition for entrepreneurial and high-tech industrial
development.
Many latecomer governments selectively and systematically uphold import substitution cum
export activities (Amsden & Chu, 2003) in order to promote locally owned firms to enter prom-
ising high-technology manufacturing and modern services industries. Government organizations
and fundamental forms of state–society relationship vary across countries (see Evans, 1996).
They play an important role as managers in an institutional matrix, directing the pool of invest-
ments and entrepreneurial talents into productive venues by reducing profitable opportunities in
unproductive areas (Chang, 2003). According to Evans (1996), an egalitarian social structure is
an advantage for the quantity and quality of trust building among the institutions and network,
and is also an important determinant for economic development. The co-evolution between a
state’s coordination that shapes collective entrepreneurship and a market in an economy that
devises new technologies creates new organizational norms and develops new human skills
that in turn reinforce growth and economic development. A virtuous co-evolution policy
process between adaptations of innovation systems (Dodgson et al., 2011) and the impact of
institutions and new policies in response to new opportunities in the market must take place
for sustainable development.
2.1.3. The three stages in telecommunications industrial development
The following discussion elucidates the common stages of development that are germane to tele-
communications service industry of this study. The stages are drawn from literature on catching-
up and development in telecommunications technology and industrial development. We orga-
nized and arrayed previous works on organization, industrialization and development along
the dimensions discussed in the previous sub-sections – first on institutions and then on provi-
ders and users.
The first stage of development in most developing economies has witnessed a managed com-
petition platform for telecommunications industry with frequent political interventions without a
clear regulatory framework in governing the telecommunications market. Many studies (Choung
et al., 2012; Kim, 1997) articulated the reason of such attempt to offer a pre-emergence setting
for industrial development. These studies explain the importance of industrial policy in pursuing
the productive routines, improving existing technologies and markets and achieving critical
mass of entrepreneurs during the early catching-up process. Following the pioneering work of
Amsden (1989) and Kim (1997) on how the early efforts of the Korean government led to a
sequence of structural change in the Korean economy, a number of studies (Choung et al.,
2012; Jun, 2011) have shed light on the operating level of telecommunications industrial
systems, the dynamics of organization routines for technological learning and governing
structure for telecommunications system development. These studies provide positive views
on professionalization of organizational processes and normative principles for learning and
knowledge management, as well as organizational structure to achieve production scale and
scope.
An establishment of productive routines in the pre-emergence stage would eventually lead to
the emergence stage. Many studies (Choung et al., 2012; Edquist, 2003; Mani, 2007) provide
transformation policy lessons for developing economies aspiring to shift their telecommunica-
tions industrial and market landscape from the pre-emergence to the emergence stage. The
lessons basically focus on the specification of the market selection mechanisms. The transition
can be activated by selection sorting of activities and acceleration of market-led selection
through the built-in sunset clause that developed from state-directed change in institutional rou-
tines. In this regard, those supported firms with limited entrepreneurial abilities will undergo a
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withdrawal process of government support. The final stage is generally characterized by many
studies with the commitment of the government to create a competitive telecommunications
market. The competitive market which is functional in promoting the adoption of telecommuni-
cations technology would likely witness an era of exponential growth in terms of the number of
telecommunications service users. Singh (2000), Turk, Blazic, and Trkman (2008) and Krafft
(2010) elucidated a set of contextual developments with topologies of industrial policy frame-
works that were adopted in many economies for telecommunications development of this
stage. They discussed the telecommunications policy initiatives to build a competitive platform
for telecommunications industrial transformation. The competition platform will eventually
create a wave of merger and acquisition (M&A) activities, co-operation between providers
and users for new businesses and strategic alliances between incumbents or local business
groups and multinational corporations. The new wave of M&A activities may facilitate lateco-
mers to acquire technological capabilities. Those who acquired competencies in telecommuni-
cations technology (like many entrepreneurs in South Korea and Taiwan) will attempt to achieve
technological leadership and access to future global market by positioning their focus on poten-
tial technologies and markets (Whang & Hobday, 2011). However, Frieden (2005) argued that
the initiatives for liberalization of the telecommunications market would neglect the benefits of
joint efforts between public and private sectors for universal service and interconnectivity
development.
2.2. Methodology
This study attempts to examine the process of scaling up the critical mass of capable locally
owned entities in order to create organizations that would pursue development goals through
industrial development. Past literature informs our exploratory approach to unfold development
processes, including the process of change within the telecommunications industry system. We
follow the empirical method adopted by Dodgson, Mathews, Kastelle, and Hu (2008) and
Dodgson et al. (2011) to explore the role of rents in the diffusion of telecommunications tech-
nology and how rents were translated into productive activities. Our narration of the case is built
upon the three stages of telecommunications industrial development. The process expounded in
Section 2.1.3 is used to explain the development stages, thus providing clear guidelines to stylize
a normative direction for our case study. They stages are the following:
(1) Pre-emergence: Achieving a critical mass of entrepreneurs to develop a pool of invest-
ment in order to venture into new industries.
(2) Emergence: Matching supply–demand forces in the economy is essential in providing a
platform for the emergence of new industries.
(3) Virtuous cycle development: Building a new institutional routine that allows the trajec-
tory of industrial development to reinforce itself with positive feedback that enhances
growth and development.
This study thus aims to shed essential light on the ways that institutions, producers and users
navigate and perform strategic interventions in the evolving development processes, which
eventually lead to a successful diffusion of technological innovations. In this aspect, the
success of diffusion of technological innovations is assessed by employing the logistic growth
function. The “S-curve” growth pattern (Figure 2) that exhibits the characteristic of diffusion
of technological innovation is used to examine the diffusion trajectories of telecommunications
technology (Rogers, 2003; Teubal, 1996; Wong & Goh, 2010). Rogers (2003) highlighted that
the S-curve consists of three stages: incubation, rapid growth and maturity length. As shown in
Figure 2, the incubation period characterizes the slow growth in adoption of technology that is
Information Technology for Development 7
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usually lengthy and that implies a mismatch of technology with the market demand. Once the
technology is gradually accepted and perceived as providing high economic value of pro-
ducts/services to the market, the adoption of technology rises rapidly until it approaches the car-
rying capacity (see Rogers, 2003, pp. 136–167). In this paper, the pattern and feature of the
growth curve will enable us to assess the impacts of certain policy framework. It will also
allow us to study the cycle of technological substitution by depicting the orderly substitution
of one phase of telecommunications technology by another.
Data for this study come from voluminous secondary sources on Malaysian industrial and
telecommunications policies as well as fieldwork (on-site interviews, see Appendix for
guiding questions). Industrial policies specifically related to telecommunications are examined
to assess the state’s influence on its development. The study collects evidence that locates the
specific state’s policies and societal responses in an institutional context that would define inter-
ests, aspirations and strategies of telecommunications’ stakeholders. The study further gathers
government documents, regulatory agencies’ and firms’ reports and data, the International Tele-
communication Union’s (ITU) data on information and communication technologies (ICTs), and
statistical evidence to assess the diffusion-related activities. We then sought to cross-check our
findings with fieldwork through on-site interviews. The interviewee-instigated discussions pro-
vided us deep insights and reflections that are consistent with our grounded theoretical
perspectives.
Our research visits included multiple interviews conducted at Telekom Malaysia Bhd. (the
main telecommunications service provider), Malaysian Institute of Microelectronic Systems
(MIMOS – a national ICT research agency), Multimedia Development Corporation (MDEC
– an agency advising the government on telecommunications policy) and four mobile telecom-
munications service providers in Malaysia. Interviewees and meetings at these organizations
ranged from senior government officers to sectional directors were carried out from 2010 to
2012. Information was acquired on the process of policy designs and development, as well as
the history and the role of specific organizations in diffusing telecommunications technology.
3. The evolution of Malaysia’s telecommunications industry
Our review of various literatures on the role of rents in the process of industrial change and dif-
fusion framework enables us to understand how state policies are executed and translated into
productive activities – and ultimately lead to development. Drawing on the synthesis of the
Figure 2. The S-curve of diffusion of technology.
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literatures, this section reports these change processes by narrating the management of rents and
the role of diffusion promotion policy in carrying out strategic interventions for productive
activities.
3.1. Pre-emergence (1970–1980s): market intervention to achieve critical mass
The implementation of the New Economic Policy (NEP) by the Malaysian government in the
early 1970s had a profound effect on the development of the telecommunications industry of
Malaysia (Kennedy, 1995). The NEP was implemented to eradicate poverty as well as to
redress the economic imbalance between the major ethnic groups in the country. In the latter
case, specific targets were set for ownership ratios in the commercial and industrial sectors.
This was achieved through various means, ranging from outright equity purchases by trustee
companies (representing the interests of Bumiputera – literally means “prince of the soil” in
Malay, that is, the Malays and other indigenous ethnic groups in Malaysia), to licensing,
quotas and government procurements (Jomo et al., 2003; Lee, 2004). In other words, the NEP
reaffirmed the role of the state as “protector” of the indigenous people, thereby creating a ration-
ale for a burgeoning government bureaucracy to oversee and promote the process of restructur-
ing (Kennedy, 1995).
The overall telecommunications services in Malaysia in the decade of the 1970s were ren-
dered almost exclusively by the government through Malaysian Department of Telecommunica-
tions or better known as Jabatan Telekom Malaysia (JTM) (Adam & Cavendish, 1995). The
immediate effect of the NEP on this organization was felt in its procurement system. The gov-
ernment attempted to ensure that local firms built up their workforce and trained technicians
through a process of localization. The process was designed to favor local businesses by disbur-
sing certain manufacturing and servicing activities that were formerly procured from foreign tel-
ecommunication giants to locally owned firms. As a consequence of these rents, several local
firms such as Sapura Holdings, Uniphone and Binafon began to invest in the manufacturing
capability and production of equipment such as telephone handsets (Kennedy, 1995). These
firms were the few players who were bidding for the so-called civil service jobs such as
digging trenches for cables. According to Kennedy (1995), JTM’s contracts were often issued
on a “round-robin basis” to these firms. By the end of the 1970s, these firms had become estab-
lished and became essential partners for foreign firms seeking to do business in the Malaysian
market (Kennedy, 1995). Although the main reason for the establishment of JTM was to
improve the infrastructure and services of the nation’s telecommunications industry, JTM
seemed to assume more of the role of a job provider (Kennedy, 1995). JTM’s workforce bal-
looned in the 1970s and became inefficient in managing the growth of telecommunications.
Kennedy (1995) highlighted that staff members in JTM increased by 211% (from 8000 to
21,000 people) over the decade which has led to swelling unskilled workforce. Moreover,
budget for training was limited and virtually no improvements were observed in the operation.
Meanwhile, many influential Malay entrepreneurs lobbied and pressured the government to pri-
vatize telecommunications in order to meet the demand for telecommunications services, while
also achieving the NEP goal of increasing Malay corporate ownership.
3.2. Emergence (end of 1980s–1990s): new platform for the emergence of mobilecellular phones
The more aggressive process of the liberalization of Malaysian telecommunications markets
began with the announcement that telephones and teleprinters in the country would be provided
by both JTM and the private sector in June 1983 (Kennedy, 1995; Painter & Wong, 2005).
Information Technology for Development 9
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Adopting a more liberal industrial policy with regard to telecommunications, the government
considered privatization and liberalization to be ways to relieve their administrative and finan-
cial burdens and at the same time improve the efficiency in service delivery (Lee, 2003). Many
contracts were opened to Malay-owned firms to service all urban pay phones and to supply
phone sets to JTM. Thus, there was an immediate rush among the existing as well as newly oper-
ating establishments to enter the telecommunications markets, namely Sapura Holding, Elect-
coms, Sime Darby, etc. Numerous foreign firms from Australia, the USA, the Netherlands,
Sweden, Germany, Italy, France and Denmark also entered into and expanded their presence
in the Malaysian market by forming partnerships with the local firms.
In 1987, JTM was rebadged as a regulatory authority and corporatized its operational arm
into Telekom Malaysia and later became a public-listed company in 1990. However, this liberal-
ization process has been influenced by political consideration (see Kennedy, 1995). Painter and
Wong (2005) stated that the early phase of liberalization of the telecommunications industry in
Malaysia was about dividing up the spoils and positioning the winners, with all of them being
well-connected individuals to the political elite. Most of the JTM employees were transferred
to join the staff of Telekom Malaysia. Telekom Malaysia was granted a 20-year license with
a monopoly over telecommunications services (Kennedy, 1995; Painter & Wong, 2005). The
corporatization of the JTM operational arm saw some improvement in services such as better
counter services, a better billing system and better responses to applications for telephone
lines. This improvement led to a further boom in the late 1980s (Figure 3(a)). However, there
was an increase of 30% in basic telephone charges. Telekom Malaysia captured an enhanced
monopoly rent from the private position it enjoyed (Goh & Jomo, 1995).
Figure 3. Diffusion of telecommunications technology in Malaysia (per 100 people). (a) Telephone lines(fixed), (b) mobile cellular subscriptions, (c) fixed broadband Internet subscriptions and (d) mobile broad-band Internet subscriptions.Source: Calculation based on ITU data available on World Data Atlas.
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Figure 3 illustrates the different levels of telecommunications subscriptions in Malaysia. It
compares the fit of the logistic growth functions for the diffusion of different telecommunica-
tions services in Malaysia. The number of telephone lines has noticeably increased since the
early 1970s (Figure 3(a)).
The diffusion of fixed telephone lines reached its peak in the late 1990s, achieving only about
20 subscriptions per 100 people. By the end of 2008, Telekom Malaysia held 90% of the market
share of fixed telephone lines. Malaysia witnessed a dramatic decrease thereafter and this implies
that the diffusion of fixed telephone lines is entering the border of its maturity stage. The domain
of innovation in fixed telephone lines is expected to be substituted by mobile cellular technology
in the next two decades (Figure 3).
Similar to the regulatory states in advanced economies, the government of Malaysia influ-
enced cellular phone services through its rules and regulations related to licensing and
pricing. The Malaysian government, with its rules, was particularly renowned for acting as a cus-
todian for locally owned businesses. It was preoccupied with preventing foreign capital from
engaging in telecommunications services and with promoting new local entrepreneurial
groups into this lucrative industry. Telekom Malaysia was granted a license to offer cellular
communications services at 450 MHz in the mid-1980s. Celcom, originally created as a subsidi-
ary of Telekom Malaysia in 1988, obtained 882–900 MHz to operate cellular communications
services. Binariang, a local privately owned multimedia conglomerate, launched Maxis in 1995
offering cellular communications at 900 MHz. Mutiara Telecommunications partnered with a
large locally owned diversified group (Berjaya Group) and launched Digi in 1995. Digi is
majority-owned (49%) by Telenor ASA of Norway. All ramp-ups and start-ups were extremely
quick in building up their operating systems (within a year) and entered a field of fierce price
competition. Its long involvement in the fixed-line telephone industry provided Telekom Malay-
sia with operational and organizational skills to compete with private firms. A systematic dereg-
ulation of the telecommunications industry (through relaxing temporary restrictions on foreign
ownership) and a conscious establishment of a competition platform over the decades had led to
a rapidly decreasing price level for mobile cellular services, which in turn promotes adoption of
mobile cellular technology. The number of cellular subscriptions has noticeably increased since
the mid-1990s. It reached its peak and mobile cellular technology had generally diffused to the
entire population in 2009 (Figure 4).
Figure 4. The full waves of diffusion of telecommunications services in Malaysia (per 100 people).Source: Calculation based on ITU data available on World Data Atlas.
Information Technology for Development 11
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Starting from the late 1980s, telecommunications revenue continued to increase despite the
capital investment in the industry remaining constant over the years (Figure 5). The share of
mobile telecoms revenue reached 71.2% in 2008 due to the significant diffusion of mobile tech-
nology from 69% to 91%. In the mid-1990s, there were seven firms offering cellular phone ser-
vices (Mesher & Zajac, 1997). As competition grew fierce, Malaysia’s cellular phone services
reached an overcrowded situation, and with players who were then exposed to debts in the
1997 financial crisis, the impetus for consolidation among firms emerged via alliances strategies.
Maxis, Celcom Axiata (a member of Axiata group, which is the mobile and international oper-
ations arm of Telekom Malaysia), Digi and U Mobile business groups (in which their main
shareholders are foreign firms) are now the only providers for cellular phone services.
Locally owned firms captured a higher share of fixed and cellular phone services (Table 1).
3.3. Virtuous cycle development (end of 1980s to early 2010s): a new institutional routinediffusion of broadband technology
In the 1990s, there was a range of policies and institutions to encourage diffusion-based firm for-
mation and growth. Broadband telecommunications network infrastructure development became
Figure 5. Capital investment and total revenues, Malaysia.Source: Euro Monitor.
Table 1. Market share (%) for fixed and cellular phone services.
Business group Market share in 2008 Market share in 2009
Celcom Axiata 32 36.9Maxis 29 24.2Telekom 24.4 24.2Time 0.8 0.8Digi 13.6 13.8U Mobile 0.2 –
Source: MCMC (2009).
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a priority in the national infrastructure development plan of Malaysia. The “ICT as enabler in
socioeconomic development” arguments built a strong basis for the government to legitimize
the diffusion policy in the market. The Malaysian government had organized a cohesive strategy
and plan to stimulate capital investment to deploy broadband telecommunications since the early
1990s. These efforts contributed a significant amount of capital investment in broadband tech-
nologies, particularly from the private sector. Many projects were embarked on in order to
advance broadband telecommunications technology and transform Malaysia into a knowl-
edge-based society. Figure 6 exhibits the evolution of broadband telecommunications develop-
ment in Malaysia.
The Multimedia Super Corridor (MSC) program launched in 1996 to develop an “infor-
mation superhighway” and transform Malaysia into a modern state by the year 2020 provided
the Malaysian government with an overarching vision and policy platform for the national
broadband industrial transformation (see Ramasamy, Chakrabarty, & Cheah, 2004). Malaysian
Communications and Multimedia Commission (MCMC) was established in 1998 to take over
from JTM in the role of industrial regulator (Painter & Wong, 2005). MCMC forms the state
policies and regulations related to communications and multimedia services. As a government
research institution, MIMOS was established to be the Internet Service Provider (ISP) for
research networks in the early 1990s. Their service, known as Jaring, then expanded into the
commercial sector and general public usage (Mesher & Zajac, 1997).
In July 1996, the commercial arm of Jaring’s operations was taken over by a group of Jaring
Access Service Providers which involved multiple media firms, including Time Media, the New
Straits Times Press, Utusan Malaysia Press, Binariang and Silicon Communications. MIMOS,
which was mandated as the research institution to facilitate the diffusion-oriented operation in
Malaysia, has limited its services to the operation of a backbone network. At the same time,
an ISP license was granted to Telekom Malaysia to offer Internet services to the general
public. Telekom launched its Internet service, called TMnet, in November 1996. The number
of Internet users has taken off since 1997. It can be observed that the user population grew
rapidly from 0.1 users per 100 people in 1994, to 65.9 users per 100 people in 2012
Figure 6. Malaysian broadband telecommunications transformation.Source: Adapted from Gao and Rafiq (2009, Figure 3, p. 313) and MDEC (2012).
Information Technology for Development 13
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(Figure 7). Malaysia emerged to have achieved a level above the world average in the number of
Internet users since 1998. The trend implies a positive sign that the growth and number of users
in Malaysia are converging to that of advanced economies.
Given the high risk of failure and non-trivial investment threshold of telecommunications
services, most providers tended to become involved in business consortia. There are only a
few business groups operating in the telecommunications market of Malaysia. For example,
Telekom Malaysia, Time Dot Com and Maxis are the main operators for backbone and last
mile networks. Many ISPs are subsidiaries of locally owned business groups, such as YTL
(one of Malaysia’s leading integrated infrastructure conglomerates) and Maxis. These groups
benefit from the presence of scale and scope economies to develop their telecommunications ser-
vices. For Amsden and Chu (2003), this type of business group has enjoyed economic advan-
tages in the form of reputation namely in acquiring a large consumer base and the option for
joint venture partners, accumulating capital from previous investments and gaining multiple
product marketing (lower unit distribution costs). However, the dominance of government-
linked companies in the market limits the active participation of the private sector in financing
infrastructure cost, inducing the government to finance the cost.
Although there was positive growth in the number of Internet users, the household adoption
of broadband Internet was low and the diffusion of broadband technology was weak. Only 0.1%
of national households had adopted broadband technology and subscribed to Internet services.
The adoption of fixed broadband technology (Digital Subscriber Line, DSL) reached the matur-
ity stage in 1997; growth became saturated at 9 per 100 people. The low household adoption of
DSL technology was largely due to the costly installation, poor Internet signal and high rate of
connection failures.
Malaysia launched its Malaysian Information, Communications and Multimedia Services
(MyICMS) 886 blueprint in the December 2006 which aimed to create a catalytic cycle by
Figure 7. The number of internet users (per 100 people) of Malaysia, the world average and the advancedeconomies.Source: Calculation based on ITU data available on World Data Atlas (World Bank, 2014).
14 C.-Y. Wong et al.
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enhancing the existing investment in Information, Communications and Multimedia Services
(ICMS) infrastructure that will support the future growth of ICMS services in the country.
Indeed, the acronym MyICMS 886 is derived from MyICMS in 8 service areas, 8 infrastructures
areas and 6 growth areas. It is a private sector-driven initiative that provides the necessary
policy, regulatory and institutional support in its implementation (KTAK, 2006; MCMC,
2007a). In line with MyICMS 886, the National Broadband Plan (NBP) announced in 2004
and revised in 2006 relies on the theory of “critical mass” whereby if government sustains
the initial deployment of broadband infrastructure using public funding for the public sector,
it will subsequently create enough momentum whereupon the private sector will leap onto the
bandwagon to continue deployment among the masses. The NBP sets an ambitious target, broad-
band penetration of 5% of the population, in order to develop a critical mass of demand
(especially in increasing the demand for wireless broadband technology among the middle
income working class) that would provide incentives for related industries to provide required
infrastructures and services. In this regard, the NBP suggests that a concerted, closely collabo-
rated effort by both the government and private sectors toward achieving the common goal of
delivering high speed broadband (HSBB) services for the masses can be established in three
forms, namely financial support managed by MCMC; regulatory and technical assistance; and
promotion activities (KTAK, 2006). Both MyICMS and the NBP focus on providing accessible
and affordable quality broadband services, and eventually an internationally competitive
business environment.
This institutional setting has influenced the behavior of the providers and users as well as
shaped the market structure of the industry. In 2006, Maxis, a leading mobile operator, was
granted a license to offer mobile broadband to the general public. Maxis launched Wireless
Broadband (3.5G-HSDPA) mobile service providing households and businesses with wireless
broadband connection. Many other mobile operators also upgraded their service to 3G, provid-
ing wireless broadband connection. This new competition platform led to a rapidly decreasing
price level of Internet services and stimulated a greater integration of broadband services in
underserved markets. The adoption of mobile broadband technology has overtaken fixed broad-
band since 2007 (Figure 4). In 2009, Telekom’s fixed broadband market share declined to 58%, a
significant drop in a span of two years. However, the diffusion of mobile broadband is expected
to reach its peak at only 40 per 100 people in 2012.
The adoption of broadband technology for household Internet access is low compared to the
diffusion of mobile cellular technology. In addition, broadband telecommunications and services
tend to be established in major urban areas rather than in non-urban areas. The development of
regional broadband services is biased toward high population densities and economic impact
areas such as Selangor and Kuala Lumpur (MCMC, 2009). Besides, the cost of broadband Inter-
net service remained a barrier for diffusion. The Malaysia consumer paid around US$6.67 per
100 kbps of broadband access compared to US$0.07 in Japan, US$0.08 in South Korea and
US$0.18 in Taiwan (MCMC, 2007b). The demand for broadband technologies in non-urban
areas is low and broadband services would be very expensive to those living in rural areas.
Therefore, our analysis modeled in Figure 3(d) and Figure 4 shows that if the present trend con-
tinues, broadband service will not reach 100% penetration in the near future.
In 2007, the government of Malaysia launched the National Broadband Initiative (NBI) to
accelerate the diffusion of broadband technology. The Malaysian government signed a
Public–Private Partnership agreement with Telekom Malaysia Bhd. to jointly implement an
HSBB project to upgrade the existing broadband services in selected urban areas and roll out
broadband services to general population with speeds of up to 2 Mbps (NBI, 2011). The
second quarter of 2012 witnessed a new wave of household broadband penetration where an out-
standing 13.3% above the target value of the NBI was achieved. The government has set a new
Information Technology for Development 15
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ambitious target of 75% household broadband penetration by the end of 2015, suggesting a new
gap to close.
4. Discussion and policy implications
The findings generally suggest that the Malaysian telecommunications system has succeeded in
developing virtuous circle diffusion trajectories. Although Malaysia has yet to match some devel-
oped and developing economies in the pace of broadband diffusion, there are positive signs that
the diffusion trajectories of broadband technologies of Malaysia are converging to that of newly
industrialized economies. The evidence of the formation of telecommunications systems and the
evolution of the organizations for telecommunications services provides us the normative prin-
ciples for industrial development and upgrading (Table 2). The virtue of institutional setting
and establishment of rents in the early 1970s was vital for triggering domestically owned business
growth momentum. The telecommunications services industry appears to be developed gradually
by the cautious targeting policy. It achieved a critical mass of entrepreneurs by first engaging the
Bumiputera business entrepreneurs in contract services from JTM, then moved to business diver-
sification at the end of the 1970s, and is now developing a market platform to furnish its sustain-
able telecommunications system. The government played an important supporting role in
distributing productive rents to entrepreneurs and creating competitive platforms for entrepre-
neurs to advance their activities. The emergence process was activated by market-led variety;
cautious acceleration of market-led selection and reproduction processes that were developed
from as a base; and state-directed change in institutional routines. The prioritization of telecoms
infrastructure with systematic deregulation of telecoms industry by consciously establishing a
competition platform and adopting judicious mix market intervention policies develops signifi-
cant capability, skills, as well as rate of adoption of telecommunications services by users.
There are basically few important operating values orchestrating Malaysia’s industrial
change that accelerated the rapid diffusion of telecommunications technology during the three
stages of development. The operating values can be considered as a useful guide to other devel-
oping economies aspiring to systematically develop and upgrade telecommunications industries.
Table 2. Normative principles for telecommunications industrial development.
Orientation Rent managementGovernance of
transition
Conditions/regulationto ensure effectiveimplementation of
policy Outcomes
Diffusion oftechnology
Prioritization oftelecomsinfrastructures.Navigation andcontent provisionthrough MSCprograms
Systematicderegulation oftelecoms industry.Transfer ofenterpriseownership frompublic entities to aselected fewduring adoptionof privatization
Consciousestablishment ofcompetitionplatform andadoption of ajudicious mix ofinterventions formarket policy(guidedcompetition)
Many business groupsin Malaysiacapitalizedorganizationalcapabilities andproject executionskills over asequential businessdiversification.Significant increasedrate of adoption oftelecoms services
Source: Authors’ observation.
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While many transformation practices in developing economies prioritize “privatization” of
many incumbent assets which are often being perceived as the key mechanism that would “auto-
matically” improve the provision of telecommunications services, this study maintains the need
of deploying a “hands-on” experimental approach by first targeting and nurturing locally owned
entities and then gradually opening up the telecommunications market for foreign entities (Gill-
wald, 2005). Many developing economies, like Mexico and South Africa, adopted the “inter-
national reform model” which in practice tended to favor the privatization of incumbent
assets and have ultimately witnessed the lack of endogenous capacity development in their
locally owned firms. The aspirations to have a high level of household broadband penetration
through the improvement of the reformed incumbents and efficient resources allocation
through market competition did not materialize (Gillwald, 2005; Gallagher & Shafaeddin,
2010). Our reading of literature informed us that even the most highly renowned economies
for neo-liberal reforms in telecommunications industries are cautious in deploying their so
called hands-off policy. Australia, for example, adopted a mixed mode approach, on one
hand, allowing private sector to dominate the investment for broadband infrastructure upgrad-
ing, and on the other hand deploying public investment to support R&D and education in ICT
and roll out broadband services in rural areas (Falch & Henten, 2010). The allocation of
public investment of Australia for telecommunications technology is basically oriented
toward addressing the market failure problem resulted from the pursuit of “free-market”
reform in telecommunications industry. However, the short time horizon of private sector
might lead to undersupply of funding for R&D activities and underdevelopment of infrastructure
in rural areas. This problem is recognized by some as “information asymmetry.”
Our evolutionary-oriented analysis of the Malaysian case allows the observation of a number
of important operational values at each stage of development to serve as a policy lesson for other
developing economies. Table 3 exhibits our observations. The values created through specific
features in the government programs which can be relevant for other developing economies
are as follows:
. Pro-indigenous growth in the pre-emergence stage for emergence of critical mass of entre-
preneurs. Government can design a set of selective interventions in the telecommunica-
tions market (e.g. government procurement, reservation of markets and special credit
schemes for indigenous-owned business entities).. Pro-diffusion growth in the emergence stage for market-led selection. A systematic dereg-
ulation of the telecommunications market and an establishment of a competition platform
for selected firms are crucial in this stage for rapid diffusion of telecommunications tech-
nology/service. Both selective (reservation and promotion of market for selected local
firms) and functional (gradually relaxing temporary restrictions on foreign ownership)
interventions are useful for pro-diffusion growth in this stage.. Establishment of specific platforms and institutions are vital in promoting virtuous cycle
development. Specific government programs, on one hand, disseminating national vision
(such as achieving information society and knowledge-based economy) and providing
general digital education and training to society to create market demand forces for new
(broadband) technology. On the other hand, creating a conducive environment for entre-
preneurs to innovate and create supply forces for new technology.
We acknowledge that the values may be vulnerable to different types of government failure.
Nonetheless, it can be a useful guide for transformational policy-making and developing an
eclectic model for policy orientation.
Information Technology for Development 17
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In this study, we acknowledge that the broadband technologies diffusion in Malaysia has yet
to achieve a comparable level with that of many developing and developed economies. The cost
to users for broadband Internet service emerged to be the core barrier for diffusion. Nevertheless,
the rents are important, at least at the beginning stage of development, to motivate active private
sectors’ involvement and investment in the industry. This barrier has indeed led to low demand
for broadband technologies in non-urban areas. Some specific enabling strategies that were suc-
cessfully addressing this barrier in many economies (Frieden, 2005; Lee & Chan-Olmsted, 2004;
Preston, Cawley, & Metykova, 2007) can be used as policy lessons for Malaysia’s broadband
policy-makers. These include the following:
. Increase broadband infrastructure investment, particularly in wireless technology for rural
broadband access. Government can provide tax incentives and special credit schemes for
service providers who wish to venture their wireless broadband businesses into non-urban
areas.. Government can increase awareness of the importance of the digital literacy in rural popu-
lations and provide them general digital education and training to create demand forces in
the non-urban areas.. The government and the broadband service providers can cooperate to stimulate demand
forces by offering rural populations various Internet applications, services and contents.
Table 3. Salient policy orientations for telecommunications industry development.
Stage Policy ObjectivesTactical plans for government
intervention
Pre-emergence Pro-indigenous growth Building a critical massof entrepreneurs
Creating rents to incentivizebusiness entrepreneurs to investin modern services
Emergence Pro-diffusion growth Market building,market-led selection
Creating demand for targetedtechnologies, supporting jointventures with foreignmultinationals for knowledgetransfer, open market policy andproviding guided competitionplatforms for market players
Virtuous cycledevelopment
Platforms andinstitutionssupporting newtechnology/market-led variety
New market building,entrepreneurs engagein new industries
“Invent” new institutions or“reengineer” the old ones toblend the unique social–economic structure with newroutines in order to achievetransformation/new marketdemand, supporting jointventures with foreignmultinationals for newknowledge transfer, public–private ownership to buildadvanced infrastructures,creating new demand fortargeted technologies andsupporting businesses in targetedindustries
Source: Authors’ observation.
18 C.-Y. Wong et al.
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5. Conclusion
This paper examined the diffusion process of the telecommunications services industry of
Malaysia using the rents perspective and diffusion policy framework. We assessed inductively
the conduct of the government in translating the value-enhancing rents for upgrading activities.
As a whole, the telecommunications services industry in Malaysia is shaped by the government
creating adequate rents throughout its progress. The proactive role of diffusion policy and the
rent-seeking behavior have been important. The diffusion of fixed-line phones reached its
peak in the mid-1990s and mobile cellular services generally diffused to the entire population
in 2009. There has been a process of consolidation among the players since. Upgrading in broad-
band Internet services shared many strategic contents and decisions that were based on the rou-
tines in tandem with the upgrading of telephone lines and mobile cellular technology.
We have framed and highlighted positive general views of our case and provided salient nor-
mative principles as guides for transformational policy-making. Our findings inform the litera-
ture the role of institutions and rents in shaping telecommunications services growth trajectories.
Indeed, the salient policy orientations and the conduct as well as the features of the government
programs can be used as policy lessons for other developing economies, where necessary, taking
into consideration the country context in which it fits.
Acknowledgement
The authors are grateful to anonymous referees for their helpful comments and suggestions that
led to improvement of the paper. Funding from the University Malaya in supporting the Malay-
sian Business History Project (FL025/2012) is gratefully acknowledged.
Note
1. Many studies (see various chapters in Khan & Jomo, 2000) have highlighted the impact of differentforms of rent distribution (e.g. public sector employment and subsidies for certain goods or products)mechanism on socio-economic structure.
Notes on contributors
Chan-Yuan Wong is presently a senior lecturer at the department of Science and Technology Studies, Uni-versity of Malaya. He has published in several international journals on industrial and innovation policiesand growth models for production of science and technology. His current research interests are economicsof catching-up, socio-economic transition processes and transformation policy and evolutionary scienceand technology policy.
VGR Chandran is an Associate Professor at the Department of Development Studies, Faculty of Economicsand Administration, University of Malaya. He has also worked as a Principal Analyst of Economic andPolicy Studies with Malaysian Industry-Government Group for High Technology (MIGHT), PrimeMinister’s Department, Malaysia. He holds a PhD in Economics and has held positions as a consultantand research associate with several international institutions.
Boon-Kwee, Ng is a senior lecturer at the Department of Science and Technology Studies, University ofMalaya. His current research interests are policy and management of science and technology; industrialcluster innovation; and innovation for inclusive development.
References
Adam, C., & Cavendish, W. (1995). Efficiency and consumer welfare. In K. S. Jomo (Ed.), PrivatizingMalaysia: Rents, rhetoric, realities (pp. 98–137). Boulder, CO: Westview Press.
Information Technology for Development 19
Dow
nloa
ded
by [
Uni
vers
ity o
f M
alay
a], [
Dr
Boo
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wee
Ng]
at 1
8:02
25
Mar
ch 2
015
Amsden, A. (1989). Asia’s next giant: South Korea and late industrialization. New York, NY: OxfordUniversity Press.
Amsden, A. (2001). The rise of the rest: Challenges to the west from late-industrializing economies.New York, NY: Oxford University Press.
Amsden, A., & Chu, W.-W. (2003). Beyond late development: Taiwan’s upgrading policies. Cambridge:the MIT Press.
Avnimelech, G., & Teubal, M. (2008). Evolutionary targeting. Journal of Evolutionary Economics, 18(2),151–166.
Chandler, A. (1977). The visible hand: The managerial revolution in American business. Cambridge:Belknap Press of Harvard University Press.
Chang, H.-J. (2003). Globalisation, economic development and the role of the state. London: Zed BooksLtd.
Chang, H.-J. (2006). Industrial policy in East Asia: Lessons for Europe. European Investment Bank Papers,11(2), 106–132.
Choung, J.-Y., Hameed, T., & Ji, I. (2012). Catch-up in ICT standards: Policy, implementation and stan-dard-setting in South Korea. Technological Forecasting and Social Change, 79(4), 771–788.
Dodgson, M., Hughes, A., Foster, J., & Metcalfe, S. (2011). Systems thinking, market failure, and thedevelopment of innovation policy: The case of Australia. Research Policy, 40(9), 1145–1156.
Dodgson, M., Mathews, J., Kastelle, T., & Hu, M.-C. (2008). The evolving nature of Taiwan’s nationalinnovation system: The case of biotechnology innovation networks. Research Policy, 37(3),430–445.
Edquist, C. (2003). The internet and mobile telecommunications system of innovation. Cheltenham: EdwardElgar.
Evans, P. (1995). Embedded autonomy – states and industrial transformation. Princeton, NJ: PrincetonUniversity Press.
Evans, P. (1996). Government action, social capital and development: Reviewing the evidence on synergy.World Development, 24(6), 1119–1132.
Evans, P., & Rauch, J. E. (1999). Bureaucracy and growth: A cross-national analysis of the effects of“Weberian” state structure on economic growth. American Sociological Review, 64(5), 748–765.
Falch, M., & Henten, A. (2010). Public private partnerships as a tool for stimulating investments in broad-band. Telecommunications Policy, 34, 496–504.
Fan, Q. (2005). Regulatory factors influencing internet access in Australia and China: A comparative analy-sis. Telecommunications Policy, 29, 191–203.
Freeman, C., & Soete, L. (1997). The economics of industrial innovation (3rd ed.). London: Routledge.Frieden, R. (2005). Lessons from broadband development in Canada, Japan, Korea and the United States.
Telecommunications Policy, 29(8), 595–613.Gallagher, K. P., & Shafaeddin, M. (2010). Policies for industrial learning in China and Mexico.
Technology in Society, 32, 81–99.Gao, P., & Rafiq, A. (2009). The transformation of the mobile telecommunications industry in Pakistan: A
developing country perspective. Telecommunications Policy, 33(5–6), 309–323.Gillwald, A. (2005). Good intentions, poor outcomes: Telecommunications reform in South Africa.
Telecommunications Policy, 29(7), 469–491.Goh, W., & Jomo, K. S. (1995). Efficiency and consumer welfare. In K. S. Jomo (Ed.), Privatizing
Malaysia: Rents, rhetoric, realities (pp. 154–171). Boulder, CO: Westview Press.Gutierrez, L. H., & Berg, S. (2000). Telecommunications liberalization and regulatory governance: Lessons
from Latin America. Telecommunications Policy, 24, 865–884.Jomo, K. S., Rasiah, R., Rokiah, A., & Gopal, J. (2003). Industrial policy and the emergence of internation-
ally competitive manufacturing firms in Malaysia. In K. S. Jomo (Ed.), Manufacturing competitive-ness in Asia: How internationally competitive national firms and industries developed in East Asia(pp. 106–172). London: RoutledgeCurzon.
Jun, Y. (2011). Technological catching-up and isolation avoidance: The case of the mobile communicationsindustry in Korea and Japan. Asian Journal of Technology Innovation, 19(1), 149–168.
Kennedy, L. (1995). Telecommunications. In K. S. Jomo (Ed.), Privatizing Malaysia: Rents, rhetoric, rea-lities (pp. 219–235). Boulder, CO: Westview Press.
Khan, M. H. (2000). Rent, efficiency and growth. In M. H. Khan & K. S. Jomo (Ed.), Rents, rent-seekingand economic development: Theory and evidence in Asia (pp. 21–69). Cambridge: CambridgeUniversity Press.
20 C.-Y. Wong et al.
Dow
nloa
ded
by [
Uni
vers
ity o
f M
alay
a], [
Dr
Boo
n-K
wee
Ng]
at 1
8:02
25
Mar
ch 2
015
Khan, M. H., & Jomo, K. S. (Ed.). (2000). Rents, rent-seeking and economic development: Theory and evi-dence in Asia. Cambridge: Cambridge University Press.
Kim, L. (1997). Imitation to innovation: The dynamics of Korea’s technological learning. Boston, MA:Harvard Business School Press.
Krafft, J. (2010). Profiting in the Info-coms industry in the age of broadband: Lessons and new consider-ation. Technological Forecasting and Social Change, 77(2), 265–278.
KTAK. (2006). The national broadband plan, enabling high speed broadband under MyICMS886.Putrajaya: Ministry of Energy, Water and Communication.
Landesmann, M. (1992). Industrial policies and social corporatism. In J. Pekkarinen, M. Pohjola, &B. Rowthorn (Eds.), Social corporatism (pp. 242–279). Oxford: Clarendon Press.
Langdale, J. V. (1997). International competitiveness in East Asia: Broadband telecommunications andinteractive multimedia. Telecommunications Policy, 21(3), 235–249.
Lee, C. (2003). Telecommunications reforms in Malaysia. Annals of Public and Cooperative Economics,73(4), 521–540.
Lee, C. (2004). Competition policy in Malaysia. Centre on Regulation and Competition: Working PaperSeries. Retrieved September 20, 2011, from http://www.competition-regulation.org.uk/publications/working_papers/WP68.pdf
Lee, C., & Chan-Olmsted, S. M. (2004). Competitive advantage of broadband internet: A comparativestudy between South Korea and the United States. Telecommunications Policy, 28(9–10),649–677.
Lim, B.-L., Choi, M., & Park, M.-C. (2003). The late take-off phenomenon in the diffusion of telecommu-nication services: Network effect and the critical mass. Information Economics and Policy, 15(4),537–557.
Mani, S. (2007). Keeping pace with globalisation: Innovation capability in Korea’s telecommunicationsequipment industry. In J. Mahlich & W. Pascha (Eds.), Innovation and technology in Korea:Challenges of a newly advanced economy (pp. 255–286). Heidelberg: Physica-Verlag.
Mansell, R., & Wehn, U. (1998). Knowledge societies: Information technology for sustainable develop-ment. New York, NY: Oxford University Press.
MCMC. (2007a). MyICMS: Malaysia formula for ICT development. Cyberjaya: Author.MCMC. (2007b). Industry performance report. Cyberjaya: Author.MCMC. (2009). Industry performance report. Cyberjaya: Author.MDEC. (2012). The socio-economic impact assessment of the national broadband initiative (Unpublished
Report). Author, Cyberjaya.Mesher, G. M., & Zajac, E. E. (1997). The political economy of telecommunications in Malaysia and
Singapore: A structure–conduct–performance comparative analysis. Information Economics andPolicy, 9(3), 183–202.
NBI. (2011). National broadband initiatives. Retrieved August 18, 2011, from http://www.skmm.gov.my/index.php?c=public&v=art_view&art_id=36
Nelson, R. R., & Nelson, K. (2002). Technology, institutions, and innovation systems. Research Policy,31(2), 265–272.
Ng, P. T. A., Lu, D., Li, C. K., & Chan, H. Y. H. (2004). A strategic perspective on future residential broad-band market. Technovation, 24(8), 665–669.
Painter, M., & Wong, S.-F. (2005). Varieties of the regulatory state? Government–business relations andtelecommunications reforms in Malaysia and Thailand. Policy and Society, 24(3), 27–52.
Perez, C. (2002). Technological revolutions and financial capital: The dynamics of bubbles and goldenages. Cheltenham: Edward Elgar.
Porter, M. (1990). The competitive advantage of nations. New York, NY: Basic Books.Preston, P., Cawley, A., & Metykova, M. (2007). Broadband and rural areas in the EU: From technology to
applications and use. Telecommunications Policy, 31(6/7), 389–400.Ramasamy, B., Chakrabarty, A., & Cheah, M. (2004). Malaysia’s leap into the future: An evaluation of the
multimedia super corridor. Technovation, 24(11), 871–883.Rogers, E. M. (2003). Diffusion of innovations (5th ed.). New York, NY: The Free Press.Salazar, L. C. (2007). Getting a dial tone, telecommunication liberalization in Malaysia and the
Philippines. Singapore: Institute of Southeast Asian Studies.Sambasivan, M., Wemyss, G. P., & Rose, R. C. (2010). User acceptance of a G2B system: A case of elec-
tronic procurement system in Malaysia. Internet Research, 20(2), 169–187.Shahiduzzaman, M., & Alam, K. (2014). Information technology and its changing roles to economic
growth and productivity in Australia. Telecommunications Policy, 38, 125–135.
Information Technology for Development 21
Dow
nloa
ded
by [
Uni
vers
ity o
f M
alay
a], [
Dr
Boo
n-K
wee
Ng]
at 1
8:02
25
Mar
ch 2
015
Singh, J. P. (1999). Leapfrogging development? The political economy of telecommunication restructuring.Albany, NY: SUNY Press.
Singh, J. P. (2000). The institutional environment and effects of telecommunication privatization andmarket liberalization in Asia. Telecommunications Policy, 24(10–11), 885–906.
Teece, D. (1986). Profiting from technological innovation: Implications for integration, collaboration,licensing and public policy. Research Policy, 15(6), 285–305.
Teubal, M. (1996). R&D and technology policy in NICs as learning processes. World Development, 24(3),449–460.
Turk, T., Blazic, B. J., & Trkman, P. (2008). Factors and sustainable strategies fostering the adoption ofbroadband communications in an enlarged European Union. Technological Forecasting andSocial Change, 75(7), 933–951.
Wang, G. (2003). Foreign investment policies, sovereignty and growth. Telecommunications Policy,27(3–4), 267–282.
Whang, Y.-K., & Hobday, M. (2011). Local “Test Bed” market demand in the transition to leadership: Thecase of the Korea mobile handset industry. World Development, 39(8), 1358–1371.
Williamson, O. (1985). The economic institutions of capitalism. New York, NY: Free Press.Wong, C.-Y. (2011). Rent-seeking, industrial policies and national innovation systems in Southeast Asian
economies. Technology in Society, 33(3/4), 231–243.Wong, C.-Y., & Goh, K.-L. (2010). Growth behavior of publications and patents: A comparative study on
selected Asian economies. Journal of Informetrics, 4(4), 460–474.Wong, P.-K. (2002). ICT production and diffusion in Asia digital dividends or digital divide? Information
Economics and Policy, 14(2), 167–187.World Bank. (2014). Internet users (per 100 people). Retrieved June 2, 2014, from http://data.worldbank.
org/indicator/IT.NET.USER.P2/countries?page=2&display=defaultYartey, C. A. (2008). Financial development, the structure of capital markets, and the global digital divide.
Information Economics and Policy, 20(2), 208–227.
Appendix. General interview questions
With government agencies
(1) Can you please brief us the history and the role of your agency?(2) What types of the programs or activities was administrated?(3) How are activities coordinated?(4) What sort of investment your agency involved in the process of infrastructure building?(5) What sort of interaction do you have with the service providers and users?(6) In your opinion what transformed the rapid diffusion of telecommunications technology? In what
ways your policy played a role?
With service providers
(1) Can you please brief us the history and the business operations of your organization?(2) How your organizations adapt itself in the process of transition?(3) What sort of investment your organization involved in the process of upgrading and industrial
development?(4) What sort of interactions your organization has with the government agencies and users?(5) In your opinion what transformed the rapid diffusion of telecommunications technology?(6) In what ways the government initiatives and policies helped your organization?
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