Larry Press, lpress@isi.edu
California State
University, Dominguez Hills
USA
Grey E. Burkhart, g.burkhart@computer.org
Allied Communications
Engineering
USA
William A. Foster, wfoster@bpa.arizona.edu
University of Arizona
USA
Seymour E. Goodman,
sgoodman@leland.stanford.edu
Stanford University
USA
The Internet
in India and China.... 1�
Abstract 1�
Introduction...... 1�
Comparing the Internet in India and China. 2�
Comparing Key Determinants... 4
Looking to the Future 10
Uncertainty..... 17
India and China are
unfriendly nations, share a common border, and have different forms of
government. They have 38 percent of the
world population, their expanding middle classes are an important global
market, and they are major producers and polluters. The development of their Internets will have global implications.
This paper is based on an
in-depth Mosaic Group study of the state of the Internet in China and India and
the factors which explain it. It begins
with a brief summary of the study methodology and framework for analysis, then
compares the Chinese and Indian Internets on six dimensions: pervasiveness, geographic dispersion,
sectoral absorption, connectivity infrastructure, organizational
infrastructure, and sophistication of
use. China is found to equal or exceed
India on each dimension. Explanations
for this situation are offered by comparing determining factors in telecommunication
infrastructure, human resources, equipment and the economy, and government
interest and support.
We then look to the
future. In spite of frequent claims
that the Internet will erode national sovereignty, government interest and
support is seen to be important both directly and indirectly through its
influence on the other factors. We
examine changing government roles, primarily the adoption of an ambitious
Action Plan in India and the reorganization of Ministries and ISPs in
China. The Indian Action Plan addresses
each of our six diffusion dimensions and is designed to elevate India to the
level of IT superpower. The impact of
the Chinese changes is less direct, but will also be important in determining
the future of the Internet there.
----------
It is our hypothesis that
the Internet will make a significant contribution to the quality of life in
developing nations. Since roughly 38%
of the global population lives in China or India, the progress of the Net in
those nations deserves careful study and consideration. We conducted a study of the state of the Internet in China and India during the
summer of 1998, and found
much that is typical of developing nations in both.
The paper begins with a
comparison of the state of the Chinese and Indian Internets along six
dimensions. India joined the Internet before China, but the Chinese Internet
quickly caught or surpassed India on each of our dimensions. We offer explanations of this situation by
comparing determining factors in telecommunication infrastructure, human
resources, equipment and the economy, and government interest and support.
In spite of frequent
claims that the Internet will erode national sovereignty, government interest
and support is seen to be important both directly and indirectly through its
influence on the other factors. Both
governments are now committed to the Internet, and we examine changing
government roles, primarily the adoption of an ambitious Action Plan in India
and the consolidation of two key Ministries in China. The Indian Action Plan addresses each of our six dimensions, and
is designed to elevate India to the level of IT superpower. The impact of Chinese consolidation is less
clear, but will also be important in determining the future of the Internet
there. We conclude with a discussion of
sources of uncertainty.
We evaluated the Indian
and Chinese Internets on six dimensions, starting with pervasiveness. The Internet
is more pervasive in China where there are an estimated 1.2 million accounts
versus only approximately 200,000 in India, and host count estimates give China
a lead of roughly eight to one.
The research and education networks have been particularly effective in China,
where they account for more than half a million users.
China also leads in geographic dispersion. Commercial Internet access is available in
over 200 cities representing all Chinese provinces, while India has Internet
POPs in only 17 of 32 States and Union Territories. China qualifies for a higher rating on our scale, but, usage is
concentrated in large cities in both
nations, and villages (roughly 70% of both populations) are completely
unserved. India has opened the ISP
market, which was a government monopoly at the time of our study, and may
therefore improve rapidly.
China leads in sectoral absorption as well. Business connectivity is rare (under 10%) in
China, but there are fewer than 400 connected businesses in India. While connectivity is almost non-existent in
primary and secondary schools in both nations, over 300 Chinese universities
and 200 research institutes have direct connectivity. Government connectivity and Web sites are rare in both nations as
is usage in the health sector.
Connectivity infrastructure is a function of domestic backbone, the prevalence
of high-speed access, Internet exchanges and international bandwidth. India has little terrestrial backbone,
relying almost exclusively on satellite links.
China uses both satellite and terrestrial links. For example, ChinaNET connects its centers
with 155 Mbps circuits and connects to its 200 POPs at between 2 and
34Mbps. Nothing close to this exists in India. Neither nation operates Internet exchange
points at present, but China has plans to. China has more organizations connecting with
leased lines, and is experimenting with cable modem and xDSL, but they are not
deployed in either nation. Finally, China
has more than double India's international bandwidth. In spite of China's relative advantage, we must bear in mind that
aggregate bandwidth per user is very low compared to a developed nation,
rendering interactive applications such as Web access impractical in many cases
-- email is the primary application in all developing nations.
Organizational infrastructure is concerned with competition in the
telecommunication and Internet industries and with coordination and
organization in the Internet industry.
Telecommunication is monopolized in both nations. Ironically, there has been more Internet
competition in China where there are four interconnecting networks. Two of these serve only education and
research, but the other two are open, and there are 200 competing access
networks downstream from these. Until
recently, the Indian government monopolized the Internet, but backbone and
access competition have now been authorized. While interconnecting network competition
is beginning in India, the ministries which operate China's commercial
interconnecting networks, the Ministry of Electronic Industries (MEI) and
Ministry of Post and Telecommunications (MPT), are being merged into a new
Ministry of Information Industries (MII), which may reduce backbone competition.
At the same time, there is
immense pressure on the part of the central government and Premier Rongji to
introduce competition into the telecommunication industry. As part of this attempt, China UNICOM, the
nations second telecommunications provider, is being reinvigorated. During the latter part of 1998, a number of
plans for restructuring China Telecom have been considered by the Chinese State
Council. The one most likely to succeed
involves separating the paging, wire-line, and mobile communication businesses,
and breaking the wire-line business into 18 separate companies along regional
lines. What impact this restructuring
will have on the competitiveness of the Internet backbone market remains to be
seen.
Sophistication of use
is comparable in the two nations, with the Internet increasing efficiency of
conventional organizations and processes, for example in substituting for mail
and FAX. Both nations may make similar
innovations in the future since they are demographically similar in many
ways. For example, both have large
rural populations, and will be motivated to innovate in the use of the Internet
to address the needs of villages and in inventing new applications, technology
and organizations to enable that service.
(The Indian government has officially recognized this as a priority).
In summary, Table
1 shows that, today, China is currently doing as well or better than India
on each of our dimensions and key sub-components. This situation may change with the advent of Internet competition
and the government adoption of an ambitious IT Action Plan in India. We will discuss this changing government
role below, but first, why did China start late and how did it surpass India?
Internet progress in a
nation depends upon determining factors including the availability of
telecommunication infrastructure, networking technicians and trained, demanding
users, networking and end-user hardware, and an interested, supportive
government. China enjoys advantages in many of these
areas.
Telecommunication
Infrastructure
Telecommunication
infrastructure is an important element in Internet growth, and, although India
and China lag behind industrial nations, China has invested heavily during the
1990s. As a result, Chinese
telecommunication infrastructure has rapidly outgrown that of India, and leads
in virtually all indicators. For
example, in 1996, Chinese teledensity was 4.46 mainlines/100 capita versus 1.54
in India. The gap has continued to widen since 1996,
as India's capital expenditure for telecommunication was $1.794 billion in 1996
while China invested $13.038 billion. This rapid buildup in China requires outside
financing, and China has been much more successful than India in attracting
direct foreign investment. The Chinese may not have been thinking
of the Internet when they decided to
invest in telecommunication infrastructure, but it has helped regardless.
The Chinese also operate their telecommunication system
more efficiently. They have over 4.4
times the revenue per employee and 3.3 times as many mainlines per staff member
as India. One explanation of Chinese efficiency is
that they decentralize decision making, pushing investment and service
decisions to the provincial or city level.
India's legendary bureaucracy also cuts efficiency. For example, spectrum allocation is parceled
out to government agencies each of which manages its own slice, leading to sub-optimization.
Human Resources --
Technicians and Users
A robust Internet also
requires investment in human capital.
Both networking leaders and technicians and demanding users are
required. India and China followed a
common pattern in that the Internet began with universities and research
institutes. In such cases, the early networking
community provides leadership and technical knowledge.
While Chinese academic networking began with X.25 in 1987,
IP connectivity did not begin until 1993, and broader university Internet
access (both UUCP and IP) began to take off in 1995. The two academic networks, CERNET and CSTNet, were instrumental
in extending the Internet beyond the academic and research communities by their
example and leadership and in offering commercial service, and they have
continued to thrive, accounting for roughly 50% of Chinese users. Approximately 25% of Indian users are from
universities.
The education and research network (ERNET) pioneered
Indian networking, but did not play as important a technical and leadership
role. They were funded by United
Nations Development Programme (UNDP) for many years, and were therefore
isolated from performance and market demands.
They spent early years planning at a time when UUCP networks were being
rapidly deployed in other developing nations, and when available, their service
was often unreliable. When UNDP funding was withdrawn in 1995, it was not clear
that ERNET would even survive. They had interim funding for two years and
finally became an Autonomous Society in 1998, but their budget, staffing
levels, telecommunication-subsidy levels, and office location are yet to be
determined.
Chinese universities were more entrepreneurial than those
of India. Funding in China came from
both the Ministry of Education and the individual universities, while Indian
universities received very little money from the government and paid nothing
themselves.
Network leaders and
technicians are on the supply side, but the Internet also needs trained, demanding
users. These are initially from the
university and research communities, but demand from other sectors soon becomes
dominant. At this early stage, a lack
of demand does not appear to have constrained Internet diffusion in either
nation. While education and literacy
rates are low (particularly in India), the absolute numbers of potential users
are high. Roughly five percent of the
population of South Asia speaks English. This translates into nearly 50 million
potential Indian users since English speakers are generally well educated and
able to afford a computer and Internet account or access at a public
venue. The educated middle class in
China is also large in absolute terms.
Both nations have large university systems -- in 1990, 4,425,247 Indians
and 2,651,396 Chinese were enrolled in higher education. For the time being, the number of educated,
middle-class people in both nations is large relative to the number of Internet
users.
Equipment and the Economy
The Internet also requires
end-user equipment (PCs), and networking equipment. Relatively large numbers of PCs are a direct advantage in that
they are available for use and an indirect advantage in that the people
operating them become trained potential users.
The ITU estimated that there were 3.7 million PCs installed in China and
1.1 million in India in 1996. Dataquest expects this gap to grow rapidly,
estimating 1996-1999 PC sales in China at 18.1 units versus 2.32 million in
India.
The Chinese advantage in
PCs reflects two factors. China has
been more heavily involved in PC manufacturing and trade and has established
brands like Great Wall and Legend.
China produced over 1.5 million PCs in 1996 and the government predicts
over 10 million units by 2000. One
company, Legend, produced 350,000 PCs in 1997, while all of India assembled
only 500,000. China also produces and
exports PC components, for example, 12 million motherboards and 8 million
monitors in 1996.
The second factor is
affordability. Whether a computer is purchased by an organization for employees
or by a family for the home, the cost is large relative to budgets in
developing nations and hard currency is required. A low-end, Internet-ready PC costs around $1,000 in either nation,
but China is richer, making PCs relatively more affordable.
Networking equipment is
also an issue. To date, it has nearly
all been imported in both nations; however, China seems more likely to
eventually develop a network equipment industry. One clue to the possible future differences between the two is
provided by the fact that the Chinese telecommunication-export industry was
more than 25 times as large as that of India in 1996. Cisco Systems has agreed to assemble routers
in China. This may have been partially
motivated by pressure from the Chinese government, but access to
infrastructure, local availability of components like power supplies and
service like sheet metal fabrication make China an attractive manufacturing
location. Cisco has decided to invest
$100 million in various activities within China. Bay Networks (now part of Nortel) will
establish an architectural lab in Beijing,
and 3Com will invest $100 million in several activities, including networking.
It is interesting to note
that Cisco has opened a 75-person software development center in India, but
this reflects a smaller investment. It parallels the effort of the Microsoft
Windows NT development group in Hyderabad with roughly 20 programmers. The sizes of these programming groups and
the hardware manufacturing volumes in China, indicate that the hardware side of
the “information economy” may have a greater impact on GNP than the software
side.
All of the above factors
-- telecommunication infrastructure, human resources and equipment require
costly investment which must occur within the context of the broader
economy. While both India and China are
developing nations with scarce resources, China is more productive and
prosperous today. In 1980, GDP per capita (in 1987
dollars) was $134 in China and $262 in India. Indian policy changes in 1980 helped GDP
growth accelerate to over 5% per year during the 1980s, but since China's
market-oriented reforms began in 1978, real GDP growth has averaged over 9% per
year, leading to a GNP per capita of $620 versus $340
in India.
In addition to being more productive, China has greater propensities to save, invest, and trade than
India. Since the time of Mahatma
Ghandi, India has followed a self-reliance policy motivated by economic and
security considerations. Reform and
opening began in 1991, and direct foreign investment rose from $162 million in
1990 to $1.3 billion in 1995,
but China still enjoys a wide, growing lead in international investment and
trade.
Government Interest and
Support
While telecommunication,
including the Internet, may erode some aspects of national sovereignty, all of
the factors we have mentioned are influenced directly or indirectly by government policy and action. In every nation, government plays a central
role in Internet diffusion, but that role can change over time. For example, the U. S. government led in
establishing the Internet and earlier networks through purchases, research, and
direct operation, but it has drawn back as industry stepped in. Historically, the Indian government has
impeded the Internet with a combination of indifference and government
monopoly, though it appears ready for a bold change of direction, and the
Chinese government first considered the potential risks, then moved relatively
rapidly once it decided to join the Internet.
Indian IT policy has vacillated over the years. The deployment of mainframe computers was
interrupted when IBM withdrew from India in response to a 1976 law limiting
foreign ownership of business to 40 percent.
Rajiv Gandhi assumed leadership after the assassination of his mother in
1984, and identified telecommunications and information technology as a
"core sector" along with traditional industries like power, steel,
oil and automobiles. The Internet languished after Gandhi's
assassination with the government using the authority granted in the Indian
Telegraph Act of 1885 to stop private ISPs from operating. Only powerful government agencies have been
able to become ISPs serving limited constituencies, and the Ministry of
Communication has kept a monopoly over commercial ISP service. Whether motivated by a desire to maintain
revenue, power, or control over technical issues, the Indian Government moved
slowly in embracing the Internet, and resisted the global trend toward privatizing
telecommunication and introducing competition.
The election of the BJP in 1997 signaled renewed interest
in IT and the Internet. BJP advocates
economic liberalization, and listed IT as one of the government’s five top
priorities. This commitment led to the
establishment of a high-level IT Task Force in May, 1998. If the recommendations of the Task Force are
implemented, the Indian Internet will grow dramatically, and may close the gap
with China.
Governments are aware of the potential advantages and
risks of the Internet. It is seen as having potential to improve
the economy, education, health care, environment, and the quality of life,
particularly in rural areas, but these are weighed against the possible threat
to the stability of the regime,
national security, and cultural values.
While the Indian government
appears to have been slow to act out of bureaucratic indifference, other
threats do not seem to have played a major role. This relative lack of concern is consistent with India’s
long-standing commitment to a free and often highly critical press, and Indian
pride in being the world’s largest democracy.
China is more concerned than is
India about the political risks of information in general, including the
Internet. The Chinese government is sensitive to the impact that the mass
media, facsimile machines, tape recorders, and Internet news groups had during
the Tiananman Square demonstrations. It also witnessed the fall of the Soviet
Union after information flows were liberalized, including the use of the
Internet during the Soviet coup attempt. Ironically, Chinese national security
concerns led the government to focus its attention on the Internet prior to
India, and this may have accelerated growth.
While it took some time to
decide to what extent they would participate in the Internet and which agencies
should be involved, the Chinese decided the benefits outweighed the risks. Once they decided to move, they acted
quickly. The Chinese State Council
authorized four government organizations to run networks that interconnect with
the global Internet, and the threat of competition between them influenced
deployment, service, and pricing. In addition to running their own ISPs, both
China Telcom's ChinaNET and the
Ministry of Electronic Industries (MEI)
ChinaGBN were willing to sell support to private ISPs; whereas, in India there
was no backbone competition.
While the Chinese government has
moved forward with the Internet, it is attempting to minimize the risks by
maintaining control over access, use, and content. The December, 1997
regulations promulgated by the Chinese Ministry of Public Security are
extremely broad and forbid the transmission of information that injures the
reputation of state organs, incites division of the country or resistance to
the Constitution, laws, or implementation of administrative regulations. There
are also prohibitions on promoting feudal superstitions, sexually suggestive
material, gambling, or violence, and user registration is also mandated. The recent sentencing of Lin Hai to two
years in prison for providing 30,000 email addresses to a “hostile foreign
organization” and the establishment by the national police ministry of task
forces for Internet monitoring in search of “seditious talk” are indications of
China’s determination to control the Internet.
To some extent, the
differing levels of concern with security issues between China and India may be
a result of the influence and size of their respective militaries. Chinese Military expenditures are nearly
four times those of India,
and the PLA has been more heavily involved with the Internet (seeking to be an
ISP) than the Indian military.
In contrast to the Union
Government, Indian State governments have had a positive influence on the Internet. For example, in West Bengal and the capital
of Andhra Pradesh, Hyderabad, proactive State governments have provided
incentives to involve private firms in Internet-related ventures, in which both
the government and the firm share equity, establishing a Singapore-like middle
ground between government control and laissez
faire. In these and other cases,
state projects and partnerships between state and local governments and private
enterprise have preceded and contributed to national planning and action in
India.
Similarly, decentralization has played a role in
China. The distributed nature of the
Internet has worked well within the context of the distributed organization of
China Telecom itself. Posts and
Telecommunications Bureaus at the city level can invest in their own ISPs while
being connected to the provincial or national backbone. This led to a rapid rollout of ChinaNET
during 1995-6 to all Provinces. China has
embraced markets, and there is considerable competition among local governments
in IT and other areas.
The governments have played major roles in both
nations. The Chinese government
addressed the Internet late, after their own academic networks and world
developments made it clear that this was strategic infrastructure. Once they decided the potential benefits
outweighed the risks, they created two backbone providers and many access
providers, while attempting to maintain control over access, use and content. The Indian government has been more passive,
neglecting the Internet and allowing it to be controlled by bureaucratic
monopolies.
However, the situation in
both nations is now changing dramatically. Coincident with the merger of the
MEI and MPT into the MII, the Chinese government separated the regulatory
authority from the operating organizations, and is seeking to introduce some
degree of competition. It remains to be seen what the impact of this move will
be, but it will surely affect the course of Internet diffusion in China.
The changes in India are potentially more dramatic. The speed with which the IT Task Force moved
is indicative of the changing government attitude. Within 90 days, it produced an extensive Background Report and a 108-recommendation Action Plan. The Task Force could act quickly because it
built upon the experience and frustration of the state governments,
universities, and industry. Much of its
plan is also consistent with the thinking and recommendations of international
bodies like the WTO, ITU, and World Bank, and it had the example of similar
plans in Singapore and other nations.
The Task Force did not start from scratch -- it surveyed the opinions of
Indian computing and networking leaders and recommended what it heard. This was less a task of invention than of
sparking action on a consensus that had already evolved.
The remainder of this
section compares the likely impact of the Indian liberalization and the Task
Force recommendations and Chinese consolidation and other factors on the
diffusion of the Internet in the two nations.
We consider the six dimensions introduced earlier.
Pervasiveness
At present, the Internet
is confined to large cities in both nations.
While these groups are far from saturated, high levels of pervasiveness
will require service to the lower urban classes and villages, which raises
issues of public access, service in villages, education and language, and
affordability.
It will be many years
before PCs are affordable by average Indian or Chinese families, and the bulk
of urban residents will be dependent upon public access facilities. The Indian Action Plan calls for the
establishment and facilitation of public access points, and it suggests that
Internet access might be provided by upgrading the 600,000 privately run public
telephone offices in the country today.
These will not solve the entire problem, because many are small and
under-capitalized and staffed, but some will doubtless become Internet access
points. Some state governments also
have plans for public access programs.
While the Chinese have no policy on universal access or the spread of
the Internet to villages, they do plan to extend telephone service to every
village, indicating that universal access is a consideration.
Pervasive penetration will
require connectivity in villages, which comprise approximately 70% of the
population in both India and China. The Indian Action Plan calls for taking
"all the necessary steps to boost
IT for agricultural and integrated rural development," and calls for pilot and research projects.
These are lofty goals, but telephone service in rural India is very poor, with
approximately half of villages having no phones. The Indian government may be reversing a policy of neglect, and
the government appears to be more aware of villages than that of China.
Whether in villages or
urban areas, computer users must be literate, and illiteracy will constrain
Internet penetration in both nations. The problem is greatest in India, with an
overall illiteracy rate of 48% as compared to 19% in China. This gap may be expected to continue into
the future, since the average primary school class in China has 22 students per
teacher compared to 64 in India.
Language is also a major issue in achieving widespread
network utilization. The Indian constitution
recognizes 14 languages, but an estimated 179 languages and 544 dialects are
used. While 30% of the population speaks Hindi, it is still an unpopular,
foreign language in the south, Bengal, and other regions. China is dominated by the Mandarin dialect,
and both Cantonese and Mandarin use the same character set. This has made standardization on a native
language in China easier than India, leading to a higher level of Chinese
content on the Internet.
The fact that most e-mail packages did not support 8 bit
encoding, made using English a necessity at first, but today, as programs that
support Chinese become common, more and more Chinese are utilizing Chinese in
email. There has been a government
effort to develop Chinese-language content.
In India, the local language
market is fragmented, and English is therefore used on most Web sites; however,
the Action Plan states that "A major promotional campaign shall soon be
launched to boost IT in Indian languages." In addition to developing content, technical issues of support
for Indian languages in software packages and font standards must be
addressed. The government has supported
some research in this area
and Windows 2000 will support Hindi and Tamil.
ERNET also distributes local-language software free of charge.
While government action
and programs will encourage Internet penetration in both nations, free market
purchase of PCs will still be a key determinant of pervasiveness, and this is
tied to affordability. The Indian Action Plan will help with duty reduction and
other incentives to lowering computer prices, eliminating gift taxes on PCs,
financial subsidy for teachers and students, etc.; however, both nations will
benefit from the rapid reduction in the cost of Internet-capable PCs arising
from competition for the low-end CPU and PC market in the United States.
The foregoing has assumed
increased pervasiveness is a goal. The
Indian Action Plan is clear on this intention, declaring "IT for all by
2008" as one of its three basic objectives, but some Chinese may be
somewhat ambivalent, choosing to restrict the Internet to those who will use it
effectively to increase productivity and not be outspoken. Chinese restrictions on access, content and
acceptable use will tend to reduce Internet pervasiveness. In the long run, there will be inevitable
conflict between security concerns and the desire to use the Internet for
universal education, electronic commerce, government services and transactions,
etc. This debate has also begun in
India, but, with its history of democracy and an active free press, India is
not likely to be as restrictive as China.
Geographic Dispersion
While China has at least a
64kb/s link to some point in each province, the bulk of Internet connectivity
and utilization remains in the large eastern cities. Similarly, an estimated 98% of Indian Internet traffic is from
the six major gateway cities.
Many of the measures
described in the prior section will impact geographic dispersion, and the
Indian Action Plan explicitly mandates geographic dispersion by ordering the
Department of Telecommunication to establish Internet access nodes in all
District Headquarters and local charging areas by January, 2000. In the meantime, all Internet-access calls
are to be charged at local rates. This
direct government action guarantees wider access by the year 2000, but opening
the backbone and access-ISP markets to competition may have a more profound
effect on geographic dispersion with market forces carrying the Internet into
the smaller urban areas.
The Action Plan recognizes
the inextricable connection between infrastructure planning and social
planning, and also contains measures which will indirectly encourage diffusion.
For example, it calls for 50 Hi-Tech Habitats in the various states, singles
out states with low levels of IT skill, education, literacy and English
language for special attention, and calls for demonstration projects in each state (our italics).
ISP competition has helped
to carry connectivity beyond key large cities in China, and will do so in India
as well; however, dispersion into villages and remote areas may prove more
difficult. The Indian Action Plan calls
for the military to help with remote dispersion and encourages wireless and
CATV-based last mile connectivity which may impact villages and remote
areas. However, village connectivity
will be very difficult to achieve in both nations. (A satellite-based IP backbones such as Teledesic's may
eventually ease this problem).
Sectoral Absorption
Our framework is concerned
with diffusion of the Internet into the business, education, government and
health sectors.
Commercial Sector
The Indian Action plan
makes stimulation of the software and
IT services industries a basic objective, with a goal of $50 billion in exports
and a commensurately large domestic IT market.
These measures will have a direct impact upon business use of the
Internet since networking is integral to the activity of software and IT
service companies. The Action Plan
lists 38 steps to assist IT firms with venture capital, credit, subsidies,
reduced taxes, duties, and fees and fewer bureaucratic roadblocks. (These measures will of course have
secondary effects on all of our dimensions).
The Action Plan also
supports offshore programming services with a call for diplomatic pressure to
make it easier for Indian programmers abroad to obtain visas. This is a double-edged sword. If the US or other nations ease visa and
work permit restrictions, programmers emigrate. While this brain drain hurts the domestic software industry,
professional non-resident Indians are an important source of hard currency and
business contacts.
While most of the business
emphasis in the Action Plan is in support of software and IT service, there are
also a measures to encourage other electronic business, for example, by
ordering the Department of Telecommunication to meet "communication
requirements" for electronic commerce and EDI, expediting
electronically-based export orders, and mandating bar coding. To the extent that this traffic flows on the
Internet, it will add to penetration; however, this is tightly tied to
legislation concerning privacy, digital signatures, and encryption which is not
yet specified.
Intellectual property laws
and customs will also have a major impact, and these have been an ongoing
source of tension between software companies and the government in China. In both nations, poverty and limited
familiarity with credit cards and other banking services among the general
public will also constrain the level of consumer-oriented electronic commerce,
but this should be less of a problem in business-business transaction
processing. Still, it should be noted
that Internet commerce is in early stages of development in both nations, and
it will be some time before it significantly impacts the Internet.
Education Sector
China has been more
successful than India in pushing the network into higher education; however,
neither has had primary or secondary school programs. One of the three basic goals of the Indian Action Plan is
"IT to all by 2008," and they have ambitious plans for networking
schools at all levels. For example,
there is a mandate that "computers and Internet shall be made available in
every school, polytechnic, college, university and public hospital in the
country by the year 2003."
Investment in distance education and financial incentives to computer
purchase by students and teachers, are also mandated, and these would lead to
greater use of the Internet.
Health Sector
While the Action Plan
mandates Internet "availability" to all public hospitals in the
country by 2003, it does not spell out what that availability might consist of
-- it could run from a single analog modem to a high speed digital link
connecting a hospital LAN to the Internet.
Perhaps the fact that this is the only mention of health in the Action
Plan is more significant than the nature of the mention itself. The 18-member Task force has representatives
of industry (telecommunication, software and IT), government, and education,
but not health. This may explain the
lack of emphasis on health care in the current plan. China has experimented with telemedicine links to the US and
telemedicine pilot projects are underway at some of the military hospitals.
Government Sector
Government applications
are designed to facilitate government-citizen interaction or increase internal
efficiency. The Indian Action Plan
promises to increase government activity in both areas. Three of its recommendations are concerned
with facilitating network-based information sharing and transaction processing
between the government and citizens and 13 are on the use of IT in
government. It is noteworthy that the co-Chairman of the Task Force,
Chandrababa Naidu, is Governor of Andhra Pradesh, the state which has been most
active in government initiatives. His
use of IT has convinced him that IT is a powerful tool in raising government
efficiency. He is also convinced that a
transparent, open government will be motivated to be responsive to the needs
and wishes of the people -- to be more democratic. He sees networks as facilitating SMART Government (simple, moral,
accountable, responsible and transparent).
In January of 1999, the
Chinese government announced an ambitious program to have 60% of the Ministries have websites by the end
of 1999 and 80% by the end of 2000.
Connectivity
Infrastructure
One
of the three overall objectives of the Indian Action Plan is setting up a
“world class information infrastructure” at the local, national and
international levels, and 18 recommendation are directed toward that end. Each
of the connectivity-infrastructure sub-components of the analysis framework is
directly encouraged: International connectivity, fiber optic backbone, IP
exchanges, and high-speed access. There is even a duty exemption for
infrastructure firms. A wave of infrastructure deployment may follow the
removal of government restrictions.
People
-- networking managers and technicians -- can also constrain the deployment of
connectivity infrastructure. The Indian
Action Plan addresses the training of IT professionals with a call to triple
the output of IT students by restructuring programs at the national level
institutions and establishing Indian Institutes of Information Technology like
the one established under Governor Naidu.
The impact of the Chinese
ministry consolidation and the restructuring of China Telecom on the rate of
backbone deployment is less certain.
The uncertainty caused by the restructuring may temporarily delay
deployment. It is to early to tell
whether China UNICOM will be able to deploy a national infrastructure and
provide an alternate source of leased line capability to organizations running
national networks. It is also unclear
whether breaking China Telecom into 18 regional businesses will spur deployment
of leased line and backbone infrastructure.
Organizational
Infrastructure
Organizational
infrastructure is a function of the competitive state of the ISP and
telecommunication industries in a nation, and these should open considerably in
India. On the other hand, the level of ministerial competition has been reduced
in China with the recent consolidation, while competition between operating
entities may have increased.
ISP
industry organization and cooperation is also a consideration here, and, while
India has a fledgling ISP organization, the E-mail and Internet Service
Providers Association, it is mostly a paper organization at this time since the
industry barely exists. This dimension should increase with the others as they
improve.
Ministry
consolidation and the elimination of the NII Steering Committee appears to have
simplified the organizational infrastructure in China. Coordination and
planning are still taking place; however, the process is less visible and
inside the MII.
Sophistication of Use
Usage in both nations is
conventional today, with email substituting for fax and phone calls, but not
making fundamental changes in applications or forcing the invention of new
technology. Innovation in nations
occurs in areas in which they have special needs or applications. Since roughly 26 percent of the world
population lives in Chinese or Indian villages, they have a strong motivation
to develop innovative organizations, finance methods, applications and
technology for connectivity in villages of developing nations. We hope to find cheap, mass-producible
kiosks, portable ground stations, satellite and terrestrial wireless
connectivity, solar-powered nodes, community ownership schemes, local training
and staffing techniques, micro-credit or other schemes for financial
self-sufficiency, voice and video content, agricultural information, news,
entertainment, etc. being developed in these nations. This may or may not come to pass, but it seems a practical and
meaningful "niche" for networking innovation.
Regardless of the action
of the governments, the Internet will continue to grow in all aspects in both
nations. The Indian government seems to
have the will to move forward at this time, as evidenced by the rapid work of
the Task Force and ratification of the Action Plan, but they are far from
finished.
The cost of many of the recommendations would be great,
and India is and there are competing priorities. Fifty six of the Action Plan recommendations call for increases
in service levels or subsidy and many of the regulation changes will result in
reduced government revenue. There may
also be increased bureaucracy -- the Action Plan would create 7 new working
groups, task forces and agencies; it requires 5-year plans of all State and
Federal departments, and 1-3% of every Ministry/Department budget is to be
earmarked for IT. Much of the funding
will have to come from private firms, both domestic and foreign, and, as we
have seen, India has had much less success than China in attracting direct
foreign investment.
Indian IT and Internet
progress may also be tied to a degree with politics. The Action Plan may be set back if the BJP government falls. It is also vulnerable to attack as focusing
on a luxury area in a nation in dire need of necessities and of special
treatment and subsidy for IT industries.
India also has a history of protectionism, and there are protectionist hints in
two of the Action Plan recommendations.
The major short-run
question marks in China have to do with the effect of the ministerial
consolidation and the restructuring of China Telecom. China Telecom, even if broken into 18 entities, may use this
transition to solidify its position as the dominant provider of physical layer
national backbone facilities. Will
their dominance of both the backbone
and of the ISP market be a serious barrier to innovation, investment, and service
and will this barrier limit the rate of
Internet diffusion? Or will their new,
more distributed structure enable them to effectively expand capacity, roll out
service, and chose technologies? China
Telecom is a government organization and the Internet is very much a government
enterprise in spite of private ISPs.
Whether another government
corporation, China UNICOM, will be able to build a national infrastructure from
the excess telecommunications capability of the Ministries of Railways and
Power is open to question as is how much actual competition this would provide. Some argue that China needs to develop a
second national telecommunications firm before it opens its markets to global
telecommunications companies. Others
urge strengthen China Telecom under the argument that it must be strong enough
to compete with the foreign companies.
Will China Telecom preserve its
dominance of the physical backbone, and will this, combined with access and
content control, stall China’s development allowing India to pass them?
Chinese Government policy
with respect to the Hong Kong and even at some point Taiwan will also impact
the Internet. The Internet and
telecommunication in Hong Kong and Taiwan are far more advanced than in
China. In spite of British rule and
Taiwanese independence there are strong cultural and business ties -- a
surprising 46.75 percent of China's switched, outbound telephone minutes are to
Hong Kong and another 8.02 percent are to Taiwan. Hong Kong has a vibrant Internet with 126
ISPs and a major international IP exchange.
To date, the Hong Kong Internet has remained autonomous (For example,
Chinese international bandwidth is 70 Mb/s, but less than 1 Mb/s is via Hong
Kong). Even if that remains the policy,
there will be technology and skill transfer between the two, and this will
enrich and have a salutary effect upon the Chinese Internet.
Contrasts in the decision
making processes in India and China also lead to different forms of uncertainty
in predicting government telecommunication and Internet policy. India had an open, decentralized process in which
government, industry and academic leaders became involved and expressed
opinions. Once the Task Force was
established, the process was made explicit and public. The government published the list of
members, their charge and time limit for deliverables. As soon as the background report was
published, it was placed on a Web server, and, as befits the world's largest
democracy, comments were solicited.
Over 3,000 suggestions were received from IT professionals around the
world. The pros and cons and chance of
success of the Action Plan have been debated in the press and on the
Internet. This openness contrasts with
the internal decision making and power struggles which characterize Chinese
decision making. Each style introduces
uncertainty in different ways. In
India, we know what has been recommended, but are uncertain about when and even
whether the measures will be carried out.
In China, we learn of decisions after they are made, but they are likely
to be quickly implemented.
We are also struck by the
fact that to date, the Indian Union government has hindered the diffusion of
the Internet, and some of the states have been quite innovative. China has also done well to the extent that
decision making on investment in telecommunication and Internet access
provision has been decentralized. Will
the MII tend to centralize decision making, losing some of this edge? The Indian government appears to be ready to
embrace private and state initiatives.
No matter how the
government policies and their implementation play out, the Indian and Chinese
Internets bear watching. They are
unfriendly nations, share a common and disputed border, and have very different
forms of government. They have 38
percent of the world population, their expanding middle classes are an
important global market, and they are major producers and polluters. The development of their Internets will
truly have global implications.
Table 1:
Dimension Comparison Summary
|
Dimension or component
|
Advantage:
C=China
E=Even
|
|
Pervasiveness
|
|
|
users
|
C
|
|
hosts
|
C
|
|
geographic dispersion
|
|
|
top-tier political
divisions with POPs
|
C
|
|
number of cities with
POPs
|
C
|
|
sectoral absorption
|
|
|
commercial
|
E
|
|
education
|
C
|
|
government
|
E
|
|
health
|
E
|
|
Connectivity infrastructure
|
|
|
domestic backbone
|
C
|
|
high-speed access
|
E
|
|
exchanges
|
E
|
|
international bandwidth
|
C
|
|
Organizational infrastructure
|
|
|
telecommunication
competition
|
E
|
|
backbone competition
|
C
|
|
access provider
competition
|
C
|
|
coordinating
organizations
|
E
|
|
Sophistication of use
|
E
|