=Paper=
{{Paper
|id=None
|storemode=property
|title=How to Make High-tech Industry Highly Developed? Effective Model
of National R&D Investment Policy
|pdfUrl=https://ceur-ws.org/Vol-1000/ICTERI-2013-p-366-373-ITER.pdf
|volume=Vol-1000
|dblpUrl=https://dblp.org/rec/conf/icteri/MoiseevaM13
}}
==How to Make High-tech Industry Highly Developed? Effective Model
of National R&D Investment Policy==
https://ceur-ws.org/Vol-1000/ICTERI-2013-p-366-373-ITER.pdf
How to Make High-tech Industry Highly Developed?
Effective Model of National R&D Investment Policy
Oksana Moiseeva1 and Sergey Mazol2
1
Belarus State Economic University, Minsk, Belarus
oksuta13@mail.ru
2
Academy of Public Administration, Minsk, Belarus
mazols@yandex.ru
Abstract. The paper validates the relations between the share of public and pri-
vate R&D spending and the effectiveness of national R&D sector. It states that
in order to implement effective and profitable “high-tech policy”, governments
have to intensify the share of business sector in Gross Domestic Expenditures
on R&D. At the same time it is necessary to preserve the definite “government
share” in R&D investments, as reduction of it up to certain extent gives the
negative effect.
Keywords. High-tech industry, R&D investment policy, Private v. Public R&D
Spending, Exports of High Technology Products
Key terms. Development, MathematicalModel
1 Introduction
It is impossible to deny that people all over the world benefit from new technologies
which lead to healthier lives, greater social freedoms, increased knowledge and more
productive livelihood. Each day sees additions to the literature, much of which in-
cludes reports on the establishment or expansion of R&D facilities and programs that
are designed to take the best advantage of highly qualified resources. Nowadays there
are practically no governments and politicians that would miss a chance to stress the
importance of innovations in economy. According to the judgments of some experts,
GDP growth of developed countries up to 50-90% is determined by technological
progress and innovations [7]. The developing countries, in their turn, extremely need
competitive high-tech industry, not only because being usually one of the most profit-
making and cost-efficient industries it contributes to economic prosperity by itself,
but also because technological achievements give them a chance to promote and make
competitive on the global arena all other economic sectors, narrowing in this way the
economic gap between the highly-developed countries and the developing ones.
� How to Make High-tech Industry Highly Developed? … 367
Still the results of R&D policy in the countries of post soviet space frequently leave
much to be desired. The most prominent achievements in the sphere of industrial
R&D belong to the most developed countries such as USA, Japan, European Union.
Current literature is replete with reports on the expanding R&D activities in China,
India, South Korea and Singapore. Meanwhile Belarus, Ukraine, Uzbekistan,
Moldova still cannot boast prominent commercial achievements in R&D. That’s why
this research paper aims at analyzing and investigating of those factors and incentives
that turn national innovative efforts, resources and potential into visible and profitable
high-tech results.
Research and development (R&D) comprise creative work undertaken on a system-
atic basis in order to increase the stock of knowledge, including knowledge of man,
culture and society, and the use of this stock of knowledge to devise new applications
[2].
The UNESCO Institute for Statistics claims that the clearest trend in global R&D
activity between 1996 and 2005 was the increasing percentage of GDP devoted by
countries all over the world to R&D (R&D intensity has more than doubled in 9% of
the countries surveyed, including China, Thailand, Tunisia and others; in 48 out of 89
countries surveyed the percentage of GDP devoted to R&D has significantly in-
creased) [4]. Surely, sustained R&D investment is a key to economic growth. But
those are strong words that are easy to follow in good economic times, but more diffi-
cult to follow in bad economic times. R&D expenditures are among the first to be cut
during recessions. Preliminary data (official statistics on R&D are available only until
2007) suggest that companies have reduced their R&D investment in the aftermath of
the crisis. In 2008 the industrial companies despite the challenging economic times
continued growing their R&D budgets, expanding by nearly 6,1%, or more than $60
billion, from what they spent in 2007. Despite their good intentions, when the down-
turn turned from mild to severe, industrial firms were forced to cut their R&D budg-
ets. Total industrial R&D spending dropped by 1% or nearly $10 billion overall in
2009 from what was spent in 2008 [6]. These findings are consistent with historical
trends showing that R&D expenditure exhibits larger variations than gross domestic
product (GDP) over the business cycle. Hence, any drop in GDP would result in an
even larger decrease in R&D expenditure [3].
The 2010 Global R&D Forecast, created by Battelle analysts and the editors of
R&D Magazine, predicts overall global R&D will increase 4.0% in 2010 to $1,156.5
billion from $1,112.5 billion spent in 2009. This increase will mostly be driven by
continued spending by China and India, who will drive a 7.5% increase in Asian
R&D. American R&D spending is expected to increase 3.2% to $452.8 billion, while
EC spending will only increase 0.5% to $268.5 billion in 2010. This forecast espe-
cially stresses a trend of falling the spending of both the Americas (U.S., Canada,
Mexico, Brazil, and Argentina) and the EU behind the spending levels seen in Asian
countries (India and China). Even Japan, the 2nd largest R&D spender in the world, is
now trailing the level of spending by China and India [6].
It is really hard to measure innovations, as its manifestation within the economy is
larger and more complex than what one indicator or index can capture and reflect.
Many aspects of technology creation, diffusion and human skills are hard to quantify.
�368 O. Moiseeva and S. Mazol
Still in order to estimate nation’s technological achievements and the level of innova-
tive progress it is possible to use a great variety of indicators. The most frequently
used ones are the following:
The number of patents granted to residents (per million people), the number of new
trademarks
Receipts of royalty and license fees (US$ per person)
The number of researchers in R&D (per million people or per thousand employees)
Population with tertiary education and youth education achievement level, new
science and engineering (S&E) graduates per 1000 population
Science and engineering degrees (% of all new degrees)
% of firms with new-to-market product innovations (as % of all firms)
Sales and exports of high technology products and many others
However, most of the indicators mentioned above describe only the quantitative
side of innovation process, but not the efficiency of national R&D investment policy.
Furthermore, some of these indicators are not representative due to considerable legis-
lation differences among the countries (for example, low patenting activity in India
and China is explained mostly by underdeveloped system of intellectual property
rights’ protection than by lack of innovations) [3]. That’s why this research paper
concentrates mainly on the share of high-technology exports as % of manufactured
exports as the most representative indicator of competitive commercialization of na-
tional scientific researches (Y-variable).
While speaking about the factors of successful innovation policy, it is important to
remember that there are no ideal models in complex economic systems, and each
economic or social parameter is subjected to multitude of different impacts and fac-
tors. As regards national high-tech development, it is affected by such economic con-
ditions as:
International openness to trade and investments (assessed by such indicators as
export and import ratio to GDP (Exp+Imp/GDP*100%), the level of trade
weighted average tariff)
The commitment to market values and developed market economy infrastructure
The accessibility to the venture financing for start-ups
The competitiveness of national economy on the global arena
The volume of R&D spending (in billions of $)
Industry innovation expenditures
The influx of direct foreign investments and many others
Public and private R&D expenditures (% of GDP)
Research and development (R&D) expenditure is one of the most widely used
measures of the innovative efforts of firms and countries. Most surveys devoted to the
technological achievements of the countries concentrate the attention mainly on the
level of R&D intensity of this country as the main factor. But while R&D as a percent
of GDP figures are bandied about as indicators of the strength of the national com-
mitment to scientific research, they have relatively little meaning in terms of just how
that investment contributes to the growth and welfare of the country.
The more important data are those that tell you who is providing the funding, who
is doing the work, how the money is being spent, and what the priorities, thrusts, and
� How to Make High-tech Industry Highly Developed? … 369
directions are. In brief, it is the internal structure of the R&D enterprise and the roles
and interplays among the different sectors that have a bearing on the manner in which
the investment in R&D has the desired societal benefit outcomes of economic secu-
rity, improved health care, and the like. The R&D expenditure is generally broken
down among 4 sectors: business enterprise, government, higher education and private
non-profit institutions. In this research the share of business financed R&D was se-
lected for thorough econometrical analysis (X variable).
2 Results
The basic hypothesis based on the preliminary insights into the statistical data sug-
gests that, in order to implement effective and profitable “high-tech policy”, govern-
ments have to intensify the share of business sector in GERD (Gross Domestic Ex-
penditures on R&D). But at the same time it is necessary to preserve the definite
“government share” in R&D investments, as reduction of it up to certain extent gives
the negative effect.
Figure 1 illustrates the average indications of high-technology exports (red line) and
business expenditures on R&D (blue line) during the period 2000-2005 for 20 coun-
tries (the countries were arranged in order of business R&D share extension) [1], [3],
[7].
We can see from the graph that the supposed rule is valid for the countries disposed
in the range of 0-60 % share of business sources in R&D expenditures: the higher
share of business sector in R&D means the higher indications of high-tech export.
Fig. 1. The average indications of high-technology exports and business expenditures on R&D.
Business R&D – % of Gross Domestic Expenditure on R&D financed by Business Sector;
HTexport – % of high-technology export in total manufactured export
However we cannot fully rely on average indications, as each country has its own
peculiarities, historic and geographic conditions and many other factors that can de-
termine high-technological specialization of export. Moreover, here only 20 countries
were taken into account.
�370 O. Moiseeva and S. Mazol
That’s why it is more interesting and important to examine the changes in the share
of high-technology exports depending on the changes in the structure of R&D financ-
ing.
The Model description:
X (∆privR&D) – shift in the share of business sector in R&D financing. Business
R&D expenditures as % of total R&D expenditures – the indicator reflects the per-
centage of total investment in research and development originating from the business
sector;
Y (∆HTexp) – shift in the share of high-technology exports as % of total manufac-
tured export during the period 2000-2005.
High technology export is exports of products with a high intensity of research and
development. They include high-technology products such as those used in aerospace,
computers, pharmaceuticals, scientific instruments and electrical machinery [4].
The statistical analysis of the data across 63 countries in the world for the period of
2000-2006 intended to reveal the correlation between changes in R&D expenditures
structure and export structure. It will be studied linear regression.
According to the statistical analysis it was revealed the following general tendency:
the share of the high-tech export increases in most of the countries surveyed along
with the growth of business financed share in R&D investments.
The econometric model on the basis of the statistical data has the following outlook
(figure 2):
∆HTexp= –1,8071+0,7129*∆privR&D (R2=0,636),
which means the increase of high-technology export share by nearly 0,7% if the share
of private R&D expenditures grows by 1%.
Fig. 2. The linear regression
With the purpose of further analysis the countries were classified into 3 categories:
The countries with traditionally high share of private sector in R&D (>60%). This
group includes such countries as Belgium, Denmark, Finland, Germany, Ireland, Is-
rael, Japan, China, Luxembourg, Switzerland, USA (figure 3).
� How to Make High-tech Industry Highly Developed? … 371
Fig. 3 The countries with high share of private sector in R&D
The countries with medium share of private R&D expenditures in the range from
40% to 60% are composed of such countries as Austria, Brazil, Croatia, Cuba, Czech
Republic, France, Hungary, Netherlands, Spain, Great Britain (figure 4).
Fig. 4 The countries with medium share of private sector in R&D
The countries with traditionally low share of private sector in R&D (<40%) are
such countries as Azerbaijan, Belarus, Bulgaria, India, Iran, Latvia, Pakistan, Poland,
Portugal, Russia, Ukraine.
Fig. 5 The countries with low share of private sector in R&D
3 Conclusions
1. For 3 groups of countries (with different level of business expenditures) the trend
line has the positive angle, which confirms the basic hypothesis. The peculiarity
here is that the elasticity of high-tech exports to the private R&D investments is
higher for the 2nd group of countries (where 40-60% of R&D is financed by busi-
ness sector). It is the diapason in which the most drastic changes in export struc-
ture happen with the increase or decrease of business share in R&D investments.
�372 O. Moiseeva and S. Mazol
Also it is important to highlight that the 3rd group of countries (with low participa-
tion of business sector) mainly has the tendency to declining share of high-tech ex-
port (most of the countries are located in the 3rd quadrant on the graph).
2. The share of business investments in R&D to the extent more than 80% may cause
the decline in high-tech export. So the government expenditures are an important
factor of accelerating the further R&D investments. According to the Harrod–
Domar theory more investment leads to capital accumulation, which generates
economic growth. Regarding the R&D investment policy, it is possible to make an
assumption that expenditures of the government on R&D create the basis and in-
dispensable minimum from which further R&D investment activity is multiplied.
3. Time lag according to statistical data is no more than 1 year.
Explanation of the results, received in the research.
The government is involved mainly in financing the fundamental investigations and
basic research (basic research is experimental or theoretical work undertaken primar-
ily to acquire new knowledge of the underlying foundation of phenomena and observ-
able facts, without any particular application or use in view [2]), which implies low
degree of commercializing of that kind of R&D.
The main commercial projects of the government in R&D sphere are concentrated
in such fields as defense, healthcare, space programs, infrastructure. The governments
of the developing countries invest in import-substituting industries, which also mean
low level of transforming the financed R&D into high-technology export.
Finally, even in the cases when the government takes the lead in innovation financ-
ing and implements different governmental programs for innovative development, it
cannot respond better to the changing market necessities and conditions, than private
investors and companies that are interested to the maximum extend in the commercial
success of their investigations. The governmental programs on the other side fre-
quently tend just to expand the range of goods, but not the technological structure of
industry and its qualitative parameters.
Policy recommendations.
It is important to focus on increasing efficiency in R&D spending rather than meet-
ing a specific spending level. The efficiency and competitiveness of R&D investment
policy, in its turn, can be achieved by expanding of the role of business sector in R&D
financing up to 70-80% (it is important to use economic incentives such as tax ex-
emptions, for example)
It is necessary to preserve the government spending on R&D within the level of 15-
20% of the total expenditures, maintaining at the same time flexibility in allocating
public R&D funds. The government should concentrate mainly in the basic researches
sphere and accelerate in this way other fields of R&D investments.
References
1. OECD: Main Science and Technology Indicators, http://www.oecd-ilibrary.org/science-
and-technology/main-science-and-technology-indicators/volume-2008/issue-2_msti-v2008
-2-en-fr;jsessionid=2obsve2k0wjt3.x-oecd-live-01(2008)
� How to Make High-tech Industry Highly Developed? … 373
2. OECD: Factbook 2008: Economic, Environmental and Social Statistics, http://www.oecd-
ilibrary.org/economics/oecd-factbook-2008/world-population_factbook-2008-graph1-en
(2008)
3. OECD: Science, Technology and Industry Scoreboard, http://www.oecd-
ilibrary.org/content/book/sti_scoreboard-2009-en (2009)
4. UNDP: Human Development Report 2007/2008,
http://hdr.undp.org/en/reports/global/hdr2007-2008 (2007)
5. Battelle and R&D Magazine: Global R&D report 2008, http://www.asiaing.com/2008-
global-r-d-report.html (2008)
6. Battelle and R&D Magazine 2010: global R&D funding forecast,
http://www.rdmag.com/topics/global-r-d-funding-forecast?page=2 (2010)
7. World Bank database, www.worldbank.org
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