a comparative analysis of the factors for fostering innovation in brics countries from 1995 to 2009

8/3/2019 A Comparative Analysis of the Factors for Fostering Innovation in BRICS Countries From 1995 to 2009

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ASCI Journal of Management41(1): 120

Copyright 2011 Administrative Staff College of India

Nirmalya Bagchi*

A Comparative Analysis of the Factors for Fostering

Innovation in BRICS Countries from 1995 to 2009

Abstract

Recent studies have proved that innovation in a country improves its growth potential. The

experience of Japan, Taiwan and other East Asian economies show that given the right

interventions and availability of a suitable eco system, developing countries can catch up on

technology and innovation. The BRICS countries are often regarded as the next set of emerging

economies that are likely to tread a innovation driven high growth trajectory. The paper

analyzes the input and output factors for fostering innovation in BRICS countries in 3 time

periods; 19952002, 20032007, 20082009 and reports the results.

Introduction

Every nation seeks prosperity and well being. Contemporary literature on the topic suggeststhat though there is no unanimity on the choice of measure, more or less everyone agrees that

the income, is an important indicator of material well being. Natural quest then is to identify

the factors causing income growth. Recent studies have reopened this issue and have

acknowledged that income growth cannot be explained only in terms of growth in capital and

labour and that adequate emphasis should be placed on enriching human capital, innovation

and technological progress. However, it is not easy for a developing country to catch up on

technology and innovation with advanced countries. Sustained efforts and suitable interventions

are often required. The experience of East Asian economies (particularly South Korea and

Singapore) show that given the right interventions and availability of a suitable eco system,

developing countries can catch up on technology and innovation.

It is widely believed that the next set of countries, after the East Asian economies, that have

potential to report a sustained high growth, coupled with high rate of technological progress

and innovation are the fast growing countries - Brazil, Russia, India, China and South Africa

(BRICS). These countries have indeed shown early signs of successfully leveraging technology.

Together they accounted for about 17% of the global GDP in 2010. The high growth rate and

the progress made by these countries in such high technology areas as ICT, pharmaceuticals,

automobiles, and aerospace calls for a critical examination of the innovations and its structure

in these countries.

*Associate Professor, Administrative Staff College of India, Bella Vista, Raj Bhavan Road,

Hyderabad 500082. Email: [email protected]


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Bagchi Innovation in BRICS Countries 3

However, attaining technological progress for a developing country is not easy. It requires

sustained and focused efforts from government and non government entities. The East Asian

economies and Japan are probably the only examples of countries that have focused on attaining

high growth through technological progress and innovation and have successfully achievedit. The evidence from the East Asian economies (Wade, 1990; Kim, 1980, 1997) and Japan

(Johnson, 1982) point to the conscious efforts made in those countries by various entities

towards developing technology and innovation capability and thereby attaining high growth.

Kim (1997) after analyzing the South Korean experience posited that technological progress,

and the innovation thereof, was a moving target and a country needs to continuously keep up

efforts to remain at the cutting edge. Technological capability, he opines, is not attained just

by achieving an edge in R&D but in the application of R&D and its commercial exploitation.

Lall (1992) stresses the need for national technological capability, financial strength, higher

education, managerial capability, foreign technology acquisition for achieving high growth

through technological progress.

A more comprehensive approach of a national innovation system was first conceptualized by

Freeman (1987) and later the concept has been refined (Freeman, 1995; Lundvall, 1988, 1992;

Nelson, 1993; and Edquist, 1997). Many countries have a formal policy towards their national

innovation system and make continuous efforts in improving the innovation capacity. (Suarez-

Villa, 1990; Griliches 1990; Trajtenberg, 1990).

Even when all stakeholders are making efforts to improve the technological and innovative

capacity of countries, one needs to continuously measure and monitor the effects of such

interventions. The key to understanding the effectiveness of innovation improving interventions

is in identifying what to measure. The problems of measuring innovation capacity and assessingnational innovation systems have been dealt with by many scholars (Kravchenko, 2011; Lundvall,

2007; Zhu, 2003; Freeman 2009) and there is no unanimity on a single set of metrics for

measuring innovation capacity. Aubert (2006) developed a set of 17 indicators for measuring

the effectiveness of a countrys innovation capacity. OECD (2005, 2006) also lays down the

broad criteria for measuring the innovation maturity of a country. Even though some models

and measures are available for developed countries, they are prone to errors when measuring

innovation in developing countries. Moreover, innovation is a non linear process. Finding

direct relationships between input factors and output factors for innovation is a delicate task.

Articles in popular global press (The Economist, 2010; The New York Times, 2007) and a

plethora of evidence based analysis and reports (Baskaran 2010; Ayyagari, 2006; Hu, 2008;

UNESCO 2010, WIPO 2011) give an interesting account of innovations happening in emerging

markets. Understandably, there is a lot of interest in innovations in emerging markets, but not

much has been done in analyzing it, though with a few exceptions. (Intarakumnerd ; Choi,

2011; Tiwari, 2011; Tseng 2009). Even less is known about the innovations from BRICS countries

and their comparative performance in building innovation capacity. However, the increasing

importance of both India and China in the field of R&D (King, 2004) is acknowledged in many

circles. In terms of FDI in R&D (UNCTAD, 2005), some of the BRICS countries perform well.

Comparative performance of BRICS countries both in terms of input and output factors of

innovation is long overdue. This paper is an attempt to understand the performance of BRICScountries in building innovation capacity.


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4 ASCI Journal of Management 41(1) September 2011

Methodology

The objective of this paper is to analyze (inter country comparison) some of the factors for

improving innovation in BRICS countries. The factors that are critically analyzed are the

following:

1. Total expenditure on R&D,

2. Business expenditure on R&D,

3. High-Tech exports,

4. Total R&D personnel in business enterprise

5. Total R&D personnel nationwide,

6. Scientific Articles (Scientific articles published by origin of author),

7. Number of patent applications filed for residents and non residents,

8. Number of patents granted to residents,

9. Total public expenditure on education per capita.

Factors 1, 2, 4, 5 and 9 may be considered as input factors and the rest (3, 6, 7 and 8) as out

put factors.

The factors of innovation in a (BRICS) country are each analyzed after aggregating data into

three time period. The first period is from 1995 to 2002, which represents a period of stability

and low fluctuations for BRICS countries in which there is not much inter country difference

in either the GDP or in other variables that influence innovation. This period is being referred

to as pre high growth phase. The second period is from 2003 to 2007, which represents a

period before the financial crisis in which the BRICS countries show an almost exponential

growth in many variables that influence innovation. This is defined as the high growth phasein this paper and represents the most fruitful period in terms of the indicators for innovation in

BRICS countries. The last period is 20082009, which represents the post financial crisis period.

We are keen to understand the influence of the recent financial crisis on factors of innovation

in BRICS. This despite the fact that we can only get possible early, trends in the two years

after the crisis.

Each factor is analyzed in aggregate form for the three time periods with inter BRICS country

comparisons so that we may get some insight into the innovation trajectories of these countries.

Dataset

The entire dataset for the paper has been drawn from the following sources;

1. IMD Competitiveness Online (19952010)

2. WIPO Statistics

3. UNCTAD, FDI/TNC database (www.unctad.org/fdistatistics).

4. NASDAQ database (www.nasdaq.com)

Innovation in BRICS

BRICS countries represent high growth economies which are showing similar trend of progress

despite spreading across four different continents. Together they accounted for about 17 percent

of the worlds GDP in 2010 (see figure 1) BRICS as a block has also been active in international

negotiations at different fora, from climate change to WTO, and have acquired clout with other

developing countries through trade ties. High growth of these countries even when the rest of

the world is reeling in the global financial crisis is also a pointer to the inherent strengths of


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these economies. For example, during and after the global financial crisis, both China and

India keptup nearly double digits growth rates. Brazil is also showing a similar trend.

Figure 1: Percentage share of world GDP in market prices

in 2010 - BRICS and Rest of the World

Source: IMD World Competitiveness Online 19952011

Figure 2, shows the pattern of the movement of GDP from 1995 to 2010. It is evident that all

the BRICS countries show an upward yoy trend in their GDP values. Even the GDP (PPP) also

show a significant upward trend. All the BRICS countries are showing a robust upward trendin their GDP and given that the rest of the world is reeling from the aftershocks of the global

financial crisis. The growth of the BRICS countries should be juxtaposed with the crisis that is

still affecting large parts of the developed world (like the Euro zone crisis), to get a real picture

of the resilience of these economies. They have big domestic markets; follow policies that

promote liberalization; attract huge amounts of FDI; have a fairly developed domestic R&D

sector with sufficient technical manpower; and are not dependent only on commodity cycles

for growth. In short, they may blossom into developed countries in a few decades if the trends

continue.

Figure 2: GDP in US Dollar Billions of BRICS countries from 19952010

Source: IMD Competitiveness Online (19952010)


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BRICS countries are not only growing fast but are also growing on the strength of their

technological and innovation prowess. As figure 3 depicts, most of the BRICS countries have

a healthy high technology export as a percentage of total manufactured goods exports, which,

in the case of China is very high, touching the 30% mark. This clearly indicates that not onlyare the BRICS countries growing fast but they are growing on the strength of their technological

prowess.

Figure 3: High technology exports as a percentage of total exports


BRICS countries are also showing early signs of innovation driven growth (UNESCO, 2010).

These countries have been successful in a lot of high technology and innovation driven industries

like commercial aviation (Brazil), fighter aircraft (China, India, Russia), ICT (India), composites

(India, Russia, China), sustainable technologies (Brazil), electronics and semiconductor devices

(China), speciality chemicals (China, India), and automobiles (China, India, South Africa). Of

the top 50 PCT applicants in the business organizations category, two were from BRICS

(WIPO, 2011); Huawei and ZTE.

Some of the notable innovations from the BRICS countries are automobiles (like the smallpassenger car Nano) from Tata Motors in India, Embraer ERJ 190 a commercial jet aircraft from

Embraer-Empresa Brasileira de Aeronautica, Brazil, the ICT service companies of India, notably

Infosys, Tata Consultancy Services, Wipro, Mahindra Satyam, generic drug companies in India

who implement process innovation, military aircraft companies in Russia like Mikoyan (formerly

Mikoyan-and-Gurevich Design Bureau), Sukhoi Company (JSC), Yak Aircraft Corporation (formerly

A.S. Yakovlev Design Bureau JSC), Ilyushin Design Bureau, telecom electronics devices from

the telecom companies like Huawei and ZTE in China, IT companies like Baidu in China and

speciality chemical companies in China.

The BRICS countries also have a large number of companies listed in global stock markets like

NASDAQ which mostly lists new economy companies. In fact, the BRICS countries together

have 214 listed companies in NASDAQ with a combined market capitalization US $ 237

billion.


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Table 1: Number, market capitalization and major industry sectors

of NASDAQ listed companies from BRICS countries.

Country Number of Market capitalization of Listed companies mainly

NASDAQ the NASDAQ listed from the industry sector

listed companies in August 2011

companies (in US $ billion)

Brazil 21 104 Oil and Gas, Telecom, Aerospace,

Banking

Russia

India 11 40 Telecom, Pharmaceuticals, EDP,

Banking

China 173 78 Software, Pharmaceuticals, Telecom,

Semiconductor, Business Services,

Aerospace, Automobile, EDP,

Banking, Oil and Gas, Construction

South Africa 9 17 Precious Metals, Oil and Gas

Source: NASDAQ database http://www.nasdaq.com

Level and quality of education in BRICS countries is also fairly good. India has consistently

been a major contributor in science papers from the early 70s, while Russia is well known and

recognized for its quality of technical education. Brazil is also well recognized as a country

that produces good quality science professionals. In recent decades, China has made special

efforts to improve its standing in developing high quality scientific and technical talent in the

country and the output factors like scientific papers and patents indicate that it has been

successful in its endeavor. The figure 4 below shows the percentage of total first university

degrees in science and engineering in BRICS countries from 1997 to 2008.

Figure 4: Percentage of total first university degrees in

science and engineering in BRICS from 19972008


%


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At least two of the BRICS countries have a very impressive 25% of the population that has

attained at least tertiary education (for people between 24 and 35 years of age). The values for

Brazil and India are just above 10% in the last few years. This points to a large pool of qualified

and trained manpower who can be then moulded for innovation.

Figure 5: Percentage of population that has attained at least

tertiary education (25-34 years age group) in BRICS countries.


Thus, we can see that BRICS countries have all the right ingredients for innovation driven

growth. Even though there may be intra BRICS differences within factors of innovation, it can

be safely said that these countries are already showing signs of attaining that goal. However,

the pace at which each BRICS country will attain innovation driven development and growth

will be different. China is much ahead of the rest of the pack and South Africa seems to be

lagging behind. India, Russia and Brazil seem to be in the same orbit and are likely to show

similar progress even though the domains in which they excel would different. Also the

median age of Indian population is 25.5 years, which will work to its advantage in the years to

come. Russia on the other hand is an aging population.

In per capita measures like total R&D personnel in business per capita or patent applicationsper capita, BRICS countries fare well (figure 6 and figure 7). However, BRICS do not post

uniform results and there is some inter country differences.


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Figure 6: Total R&D personnel in business per capita in FTE per 100 people

Figure 7: Patent applications per capita

Number of applications filed per 100,000 inhabitants

Analysis

Now let us analyze some of the factors for fostering innovation in any country. We shallanalyze the data in aggregate form in three time periods for total expenditure on R&D, business

expenditure on R&D, high-technology exports, total R&D personnel in business enterprise (in


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full-time equivalent thousands), total R&D personnel nationwide, scientific articles published

by origin of author, number of patent applications filed for residents and non residents,

number of patents granted to residents, and total public expenditure on education per capita

(in US Dollar per capita).

Pre High Growth Phase (19952002)

In this phase, the BRICS countries show a stable rate of GDP growth. The table 2 given below

lists the mean values (of each BRICS country) for each indicator in this phase. This phase is

characterized by stable values for most indicators.

Table 2: Means of indicators that foster

innovation in the pre high growth phase

Mean of Mean of Mean of Mean of Mean of Mean of Mean of Mean of Mean of

Total Business Scientific Number of Number of High Tech Total R&D Total R&D Total public

Expenditure Expenditure articles patents applications Exports personnel in personnel expenditure

on R&D on R&D published granted filed for (in US Dollar business nationwide on education

(in US Dollar (in US Dollar by origin to residents Millions) enterprises (in FTE per capita

Millions) Millions) of author residents and non from (in FTE thousands) in US Dollar

From from from from residents 20002002 thousands) from per capita

19952002 19952002 19952002 19972002 from from 19952002 from

20002002 19952002 19952002

Brazil 6167.76 2238.01 6155.283 513.125 16867.33 4638.34 81.49 121.75 143.3112

China 8626.43 4677.97 17424.98 3259.333 65196 42111.42 416.26 859.69 26.4368

Mainland

India 3177.12 662.63 10415.77 539.4444 10186.67 1498.15 72.23 278.84 15.54853

Russia 3230.70 2292.35 16854.87 18895.83 33245 3469.82 652.40 1041.98 66.36507

South Africa 931.67 499.84 2265.183 4211.5 913.02 8.48 21.33 198.4933

Expenditure on R&D

Two indicators fall in this category, total expenditure on R&D and business expenditure on

R&D. Data is available for both indicators from 1995 to 2002 and the mean values are calculated

for this period for both the indicators. In this phase China and India show an upward trend for

total expenditure on R&D, while Brazil, and South Africa show a marginal decline and Russia

shows a recovery after a decline in the late 90s. China shows a much greater rate of increaseas it had head start ahead of others in 1995 (4175.34 US $ million) with a value lower than

Brazil (US $ million 6285.40). In 2002 however, China was much ahead (more than four times)

at US $ 84932.60 million while Brazil was at US $ 19531.58 million. During this period (on an

average) the share of Brazil, China, India, Russia and South Africa to the total of BRICS for this

indicator has been 28%, 39%, 14%, 15%, 04% respectively. In the case of business expenditure

on R&D, India and South Africa fare very badly during this period and show a very marginal

increase, while China already shows an exponential increase. Brazil is showing an upward

movement while Russia decline, in the late 90s and then recovers in the early 2000s. During

this period (on an average) the share of Brazil, China, India, Russia and South Africa to the

total of BRICS for this indicator has been 22%, 45%, 06%, 22%, 05% respectively. From

US $ 1823.64 million in 1995, China increases business expenditure on R&D to US $ 9517.94

million in 2002; an increase of 421%, while the increase for Brazil and India is only 77% and

56% respectively.


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R&D Personnel

Two indicators fall in this category, total R&D personnel in business enterprises (000 FTE) and

total R&D personnel nationwide (FTE 000). Data is available for both indicators from 1995 to2002 and the mean is calculated for this period for both the indicators. The total R&D personnel

in business enterprises in Full-Time equivalents (in FTE 000) for the period 19952002 shows

that China posts a rapid increase in this period and Russia posts a rapid decline. India, Brazil

post similar values and remain almost flat for the entire period, while South Africa posts a

marginal increase. Again the growth posted by China in this indictor mirrors the other indicators

for the country. In fact, in 1995 China had 317.5 (in FTE thousands) total R&D personnel in

business enterprises and in 2002 that number goes up to 601.3.

Expenditure on Education per capita

The expenditure on education per capita from 1995 to 2002 shows a decline for Brazil and

South Africa and a robust increase by Russia. China and India also show modest increase. A

big gap exists between the groups Brazil-South Africa-Russia and India-China. China in this

indicator does not show an exponential increase in spending. During this period (on an average)

the share of Brazil, China, India, Russia and South Africa to the total of BRICS for this indicator

has been 32%, 06%, 03%, 15%, 44% respectively.

Patents

Two indicators fall in this category, number of patents granted to residents (data available

from 19972002) and number of applications filed for residents and non residents (data availablefrom 20002002). Mean is calculated for both indicators for the period that data is available.

Number of applications filed for residents and non residents show an upward trend for China.

The rest of the BRICS countries post results with neither an increase nor decrease. Also, China

is at a much higher level than the rest. During this period (on an average) the share of Brazil,

China, India, Russia and South Africa to the total of BRICS for this indicator has been 13%,

50%, 08%, 26%, 03% respectively. With regard to number of patents granted to residents,

Russia posts values that are mush higher than the rest of the BRICS countries, but shows a

decline, while China shows an increasing trend. Brazil and India post similar results. For this

indicator, China goes up from 1531 in 1997 to 5813 in 2002, and Russia comes down from

25616 in 1997 to 14454.33 in 2002. During this period (on an average) the share of Brazil, China,

India, Russia and South Africa to the total of BRICS for this indicator has been 02%, 14%, 02%,

81%, 0% respectively.

Scientific Articles

All BRICS countries with the exception of Russia show an increasing trend in terms of scientific

articles published by origin of author. China is of course showing a rapid growth in this

indicator while Brazil, India and South Africa are showing a stable rate of modest growth in

the number of articles. During this period (on an average) the share of Brazil, China, India,

Russia and South Africa to the total of BRICS for this indicator has been 12%, 33%, 20%, 32%,04% respectively.


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High Tech Exports

High Tech Exports (in US $ Million) is one indicator in which the difference between China

and the rest of the BRICS countries is very evident. China posts values of 24195.41 in 1998 forthis indicator and in 2002 posts a value of 68181.62. The nearest BRICS country to China in

1998 is Brazil which posts a value of 2544.22 and 5350.79 in 2002. So China is several times

ahead of the others on this indicator. However, we must also admit that not all high technology

exports maybe innovative.

Figure 8: Share (Ratio of means) of the BRICS countries as per the

9 indicators in the pre high growth phase

High Growth Phase (20032007)

This period is characterized by high growth in GDP in the BRICS countries and in high

growth of the indicators that foster innovation. Chinas share amongst BRICS increases in this

period enormously. This is also the period immediately before the global financial crisis. Most

emerging markets including BRICS countries performed very well in this period.


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Table 3: Means of indicators that foster innovation

in the high growth phase


Total Business 19972002 Number of Number of High Tech Total R&D Total R&D Total public

Expenditure Expenditure Scientific patent patents Exports personnel in personnel expenditure

on R&D on R&D articles applications granted (in US Dollar business nationwide on education

(in US Dollar (in US Dollar published filed for to resident Millions) enterprises (in FTE per capita

Millions) Millions) by residents and 2003 from (in FTE thousands) in US Dollar

(2003 (2003 origin of non residents 2007 (2003 thousands) (2003 per capita

2007) 2007) author 2003-2007 2007) (20032007) 2007) 20032007

Brazil 9078.94 4360.009 10096.82 20576 245 7212.43 77.07 244.16 226.8233

(0.16) (0.12) (0.12) (0.08) (0.01) (0.03) (0.05) (0.08) (0.29)

China 31737.87 21985.52 42319.5 172938 16685.33 2 18313.67 882.13 1370.17 45.65232

Mainland (0.54) (0.62) (0.50) (0.67) (0.46) (0.93) (0.55) (0.46) (0.06)

India 6388.52 1740.437 15080.04 23748.4 905.3333 3445.35 87.25 391.15 22.28471

(0.11) (0.05) (0.18) (0.09) (0.02) (0.01) (0.05) (0.13) (0.03)

Russia 9125.02 6086.296 14400.96 34888.6 18555.93 4529.54 541.52 934.69 216.768

(0.16) (0.17) (0.17) (0.13) (0.51) (0.02) (0.34) (0.31) (0.27)

South Africa 2100.60 1076.314 2473.4 7450.4 1516.73 11.54 29.13 280.4863

(0.04) (0.03) (0.03) (0.03) (0.01) (0.01) (0.01) (0.35)

Expenditure on R&D

The total expenditure on R&D indicator shows an exponential increase in the case of China

and a rapid pace of increase for Brazil and Russia with India close behind. South Africa alsoshows an upward trend. During this period (on an average) the share of Brazil, China, India,

Russia and South Africa to the total of BRICS for this indicator has been 16%, 54%, 11%, 16%,

04% respectively. Business expenditure on R&D also shows robust growth for all BRICS countries,

but China shows an exponential growth followed by Russia, Brazil, India and South Africa.

During this period (on an average) the share of Brazil, China, India, Russia and South Africa to

the total of BRICS for this indicator has been 12%, 62%, 05%, 17%, 03% respectively.

R&D Personnel

Total R&D personnel in business enterprise for China is growing exponentially in this period

but for Russia, the trend is downward, Brazil, India and South Africa show no growth inexpenditure. Chinas increase in expenditure is very high. It rises from 656.1 FTE thousands in

2003 to 1186.75 FTE thousands in 2007, while for Russia, it reduces from 592.63 in 2003 to

507.42 in 2007. During this period (on an average) the share of Brazil, China, India, Russia and

South Africa to the total of BRICS for this indicator has been 05%, 55%, 05%, 34%, 01%

respectively. Total R&D personnel nationwide tell a similar tale. China posts exponential growth

in this indicator while Russia shows a decline. Brazil, India and South Africa show marginal

increase. During this period (on an average) the share of Brazil, China, India, Russia and South

Africa to the total of BRICS for this indicator has been 08%, 46%, 13%, 31%, 01% respectively.


The total public expenditure on education per capita for this period shows a somewhat different

pattern than the other indicators. South Africa, Brazil and Russia post exponential growth on


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this indicator, while China and India fall far behind. During this period (on an average) the

share of Brazil, China, India, Russia and South Africa to the total of BRICS for this indicator has

been 29%, 06%, 03%, 27%, 35% respectively. However, one must point out that the per capita

value for India and China are low due to their huge population and in absolute terms thedifference may not be as glaring.

Patents

Number of patents granted to residents in this period is showing exponential growth for China

and is showing a decline for Russia. Brazil, and India show only very marginal growth in

numbers. During this period (on an average) the share of Brazil, China, India, Russia and South

Africa to the total of BRICS for this indicator has been 01%, 46%, 02%, 51%, 0% respectively. In

the indicator, number of patent applications filed for residents and non residents, again China

is far ahead of the rest of the BRICS countries. While in 2007, China show a number of 245161,

Brazil reports only 21825. During this period (on an average) the share of Brazil, China, India,Russia and South Africa to the total of BRICS for this indicator has been 08%, 67%, 09%, 13%,

03% respectively.

Scientific Articles

In scientific articles published by origin of author, China shows an upward trend along with

India and Brazil. Russia shows a decline and South Africa shows no growth. During this

period (on an average) the share of Brazil, China, India, Russia and South Africa to the total of

BRICS for this indicator has been 12%, 50%, 18%, 17%, 03% respectively.

High Tech Exports

High technology exports show exponential growth for China. Even though the rest of the

BRICS countries also post modest growth figures, they pale in comparison to China. The share

of China amongst other BRICS countries is about 93%. During this period (on an average) the


been 03%, 93%, 01%, 02%, 01% respectively.


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Table 4: Means of different indicators that foster innovation

in the post financial crisis period


Total Business Scientific Number of Number of High Tech Total R&D Total R&D Total public

Expenditure Expenditure articles patents applications Exports personnel in personnel expenditure

on R&D on R&D published granted filed for (in US business nationwide on education

(in US Dollar (in US Dollar by to residents Dollar enterprise (in FTE per capita

Millions) Millions) origin of residents and non Millions) (in FTE thousands) in US Dollar

(2008 (2008 author 2008 residents (2008 thousands) (2008 per capita

2009) 2009) 20082009 2009 20082009 2009) (20082009) 2009) 20082009

Brazil 19013.42 9038.272 233.50 9443.74 79.35 397.72 410.8772

(0.15) (0.11) (0.004) (0.02) (0.04) (0.08) (0.31)

China 75681.36 55429.53 41256.33 302205.5 364819.61 1521.45 2128.2 116.4136

Mainland (0.61) (0.70) (0.659) (0.78) (0.94) (0.74) (0.46) (0.09)

India 10136.29 3040.888 36812 8320.36 37.1652(0.08) (0.04) (0.09) (0.02) (0.03)

Russia 16325.76 10230.14 21135.67 40206.5 4841.44 466.13 859.357 441.2807

(0.13) (0.13) (0.337) (0.10) (0.01) (0.23) (0.31) (0.33)

South Africa 2546.96 1377.569 10191 1714.50 31.077 326.2912

(0.02) (0.02) (0.03) (0.00) - (0.01) (0.24)

Expenditure on R&D

Two indicators fall in this category, total expenditure on R&D (in US Dollar Millions) and

business expenditure on R&D (in US Dollar Millions). Data is available for both indicators from

2008 to 2009 and the mean is calculated for this period for both the indicators. Total expenditureon R&D for China continues to increase exponentially flowed by Brazil, Russia, India and

South Africa. The signs of any effect of the financial crisis are not evident from the expenditures

of the BRICS countries. During this period (on an average) the share of Brazil, China, India,

Russia and South Africa to the total of BRICS for this indicator has been 15%, 61%, 08%, 13%,

02% respectively. Business expenditure on R&D is increasing for China in this period but

shows a dip in the case of Brazil and Russia. During this period (on an average) the share of

Brazil, China, India, Russia and South Africa to the total of BRICS for this indicator has been

11%, 70%, 04%, 13%, 02% respectively. Some dip is noticed in this indicator that may be

attributed to the global financial crisis.

R&D Personnel

Two indicators fall in this category, total R&D personnel in business enterprises (in FTE

thousands) and total R&D personnel nationwide (in FTE thousands). Data is available for both

indicators from 2008 to 2009 and the mean is calculated for this period for both the indicators.

China shows no sign any slowdown and continues to post upward trend in total R&D personnel

in business enterprise. Russia, and Brazil show a dip in this indicator for this period which

may be attributed to the financial crisis. During this period (on an average) the share of Brazil,

China, India, Russia and South Africa to the total of BRICS for this indicator has been 04%,

74%, 0%, 23%, 0% respectively. The case of total R&D personnel nationwide is similar with

China showing increasing trend and the rest showing a dip. During this period (on an average)the share of Brazil, China, India, Russia and South Africa to the total of BRICS for this indicator

has been 08%, 46%, 0%, 31%, 01% respectively.


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China and India continue to increase their spending on education without any indication of a

dip brought about by the events of the financial crisis, but the other 3 countries that werehaving very high values in this indicator show dips. Thus total public expenditure on education

per capita shows some effect of the financial crisis. During this period (on an average) the


been 31%, 09%, 03%, 33%, 24% respectively.

Patents

Patents granted to residents show increasing trend for China and a decline for Russia. During

this period (on an average) the share of Brazil, China, India, Russia and South Africa to the

total of BRICS for this indicator has been 004%, 65%, 0%, 33%, 0% respectively. Number of

patent applications filed for residents and non residents in the case of China is showing anincreasing trend and China is way ahead of the rest of the BRICS countries. During this period

(on an average) the share of Brazil, China, India, Russia and South Africa to the total of BRICS

for this indicator has been 0%, 78%, 09%, 10%, 03% respectively.

Scientific Articles

Sufficient data is not available for this period.

High Tech Exports

China again plays a dominant role in this indicator in this time period. During this period (on

an average) the share of Brazil, China, India, Russia and South Africa to the total of BRICS forthis indicator has been 02%, 94%, 02%, 01%, 0% respectively. China is way ahead of the others

in this indicator and is unaffected by the global financial crisis.


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Figure 10: Share of the BRICS countries as per the 9

indicators in the pre high growth phase

Discussion and Conclusion

The analysis of the data from 1995 to 2009 shows certain trends. China is increasing its

spending on input indicators of innovation like expenditure on R&D, increasing manpower for

R&D, and also pushing for improvements in output indicators of innovation like patent related

indicators, high tech exports or scientific articles. In all the indicators that have been analyzed,

China plays a dominant role. Over the three periods under study, it consistently shows

improvements in all indicators. Russia on the other hand continues to decline on some key

indicators. India and Brazil are slowly and steadily improving their innovation indicators. India

and China are also not showing any sign of getting affected by the financial crisis, where as,

some dip is noticeable in the case of Brazil, Russia and South Africa.

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a comparative analysis of the factors for fostering innovation in brics countries from 1995 to 2009

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