A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea:
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| Format: | Abschlussarbeit Buch |
| Sprache: | English |
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2001
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVI, 291 S. graph. Darst. |
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MARC
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| 100 | 1 | |a Kim, Eui-Jae |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea |c von Eui-Jae Kim |
| 264 | 1 | |c 2001 | |
| 300 | |a XVI, 291 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 502 | |a Saarbrücken, Univ., Diss., 2001 | ||
| 650 | 7 | |a Hochschulschrift |2 gtt | |
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| 650 | 0 | 7 | |a Verarbeitende Industrie |0 (DE-588)4133768-2 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Produktivitätszuwachs |0 (DE-588)4128967-5 |2 gnd |9 rswk-swf |
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Datensatz im Suchindex
| _version_ | 1804129245191995392 |
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| adam_text | Contents
I. Introduction 1
II. Theoretical Framework of the Relationship between R D and
Growth of a Company 4
2.1 Overview 4
2.2 Concept of Efficiency 5
2.3 Concept and Method of Measuring Productivity 9
2.4 Examination of Growth Theory 10
2.4.1 Relationship between R D and Business Growth 10
2.4.2 Theories on the Relationships between R D and Productivity Growth... 11
2.4.2.1 Two Major Theories 11
2.4.2.2 Neo Classical Economics on R D 11
2.4.2.3 Neo Schumpeterian on R D 15
2.4.2.4 Examining the Growth Accounting Theory 20
2.4.2.5 Concept and Method of Measuring Total Factor Productivity.... 23
2.4.2.5.1 The Kendrick Model 24
2.4.2.5.2 The Solow Model 26
2.4.2.5.3 The Griliches Model 29
III. R D Investment Comparison among Korea, Germany, the USA
and Others 32
3.1 Overview 32
3.2 Investment in R D 32
3.2.1 Overview of Science and Technology Policy among Korea, Germany
and the U.S.A 32
3.2.2 R D Investment Contribution to Growth: The Advanced Nations. 35
3.2.2.1 Overview 35
3.2.2.2 Results of the Previous Research 36
3.2.2.3 Characteristics of R D Expenditure: Comparison among Countries ..38
3.2.3 Symmetry between Structural Form and Innovation Process 70
3.2.3.1 From the Linear to the Non linear Model 71
3.2.3.2 The Appearance of a New Organizational Principle 75
* iii
IV. Measuring Investment Factors, Output and R D Stock 85
4.1 Targeted Industry and Time Period 85
4.2 Output and Input 88
4.2.1 Output 88
4.2.2 Labor Input 89
4.2.3 Capital Stock 89
4.3 Research and Development Stock 90
4.3.1 Introduction 90
4.3.2 Research and Development Stock Concept 91
4.3.3 A Measurement Model for Research and Development Stock 92
4.3.4 Research and Development Time Lag 95
4.3.5 Obsolescence Rate 101
4.3.6 Research and Development Deflator 106
4.3.7 Research and Development Stock in the Manufacturing Industry 111
4.4 Problems with Measurement 113
V. An Analysis of Productivity in the Manufacturing and
Sub manufacturing Industries 116
5.1 Introduction 116
5.2 The Manufacturing Industry 117
5.2.1 Labor Productivity 119
5.2.2 Capital Productivity 121
5.2.3 Total Factor Productivity 123
5.2.4 An Analysis of the Source of Growth 124
5.3 Sub manufacturing Industry 126
5.3.1 The Paper, Printing and Publishing Industry 126
5.3.2 Chemical Products Industry 131
5.3.3 Oil Refinery Industry 136
5.3.4 Rubber and Plastics Industry 141
5.3.5 Nonmetallic Minerals Industry 146
5.3.6 Primary Metals Industry 151
5.3.7 Assembled Metals Industry 156
5.3.8 General Machine Industry 161
5.3.9 Electric Machines Industry 166
5.3.10 Transport Machines Industry 171
5.3.11 Precision Machines Industry 176
iv
VI. An Analysis of Profitability of Research and Development
Investment 181
6.1 The Manufacturing Industry 182
6.2 Innovation Industry 183
6.3 Electric Machines Industry 186
6.4 Precision Machines Industry 187
6.5 Transportation Industry 189
6.6 General Machine Industry 190
6.7 An International Comparison of Rate of Profitability from Research
and Development Investment 192
VII. An Analysis of Policies and Strategies of Research
and Development Investment in Korean Businesses 198
7.1 Introduction 198
7.2 Facts Finding Analysis 198
7.3 Cross analysis among Facts 222
7.4 Difference Analysis among Factors 251
VIII. Conclusion 262
8.1 Summary 262
8.1.1 Analysis of the Source of Growth 262
8.1.2 An Analysis of Policies and Strategies of R D 263
8.1.3 An Analysis of the Profitability of Research and Development 264
8.1.3.1 Other Nations 264
8.1.3.2 Korea 264
8.2 Policy Implications 266
8.3 Follow up Tasks 268
Appendix 270
References 284
~ V
Tables and Figures
Table 3 1 Trends in R D Expenditures of the Five Advanced Countrie
and Korea 41
Table 3 2 Density of Industrial Portion of Overall R D Expenditures
(by Industry, %) 43
Table 3 3 Industry s Density of Overall R D Carried Out (%) 44
Table 3 4 Density of R D Expenditures
(Manufacturing Industry, %, 1973 1992) 45
Table 3 5 Degree of Intensity of Value Added, Exports, and R D Expenditure
(1980 1990) 49
Table 3 6 Correlation Between Formation of Value Added, Exports, and
R D Expenditures (1980s) 50
Table 3 7 Correlation Between R D Expenditure Formation of Each Country
(1980 1990) 50
Table 3 8 Comparison of R D Expenditure Formation of the Five Advanced
Countries (Density in Entire Manufacturing Industry R D, %) 51
Table 3 9 US Industry Patent Trends for Patents Registered in the US 54
Table 3 10 Japanese Industry Patent Trends for Patents Registered in the US 55
HTable 3 11 European Union Industry Patent Trends for Patents Registered
in the US 56
Table 3 12 Service Sector Portion of the Total R D by Industry 58
Table 3 13 Degree of Intensity of Value Added, Exports, and R D Expenditures
(1990 1995) 60
Table 3 14 Correlation between Formations of Value Added, Exports, and
R D Expenditures (1990 1995) 60
Table 3 15 Correlation among the Formation of R D Expenditures of Each
Country (1990 1995) 61
Table 3 16 Comparison of R D Formation in Advanced Countries and
Korea between 1980 1990 and 1990 1995 61
Table 3 17 Degree of Concentration of R D Formation and Value Added
Formation and Correlation between R D Formation and
Value Added Formation in Korea 65
Table 3 18 Degree of R D Formation and Value Added Formation in Korea
(RDSPE) 66
Table 3 19 Degree of R D Formation and Value Added Formation in Korea
(VSPE) 67
vj
Table 3 20 Education Level and Frequency of Training 80
Table 4 1 Coordination and Integration of Industry Classification 87
Table 4 2 Average Research and Development Time Lag (annual) during the
1960s for Japan s Manufacturing Industry 97
Table 4 3 Average Research and Development Time Lag (annual) during the
1970s for Japan s Manufacturing industry 98
Table 4 4 Average Research and Development Time Lags in the US (annual) 99
Table 4 5 Time Lags by Stage of Technology Innovation (monthly) during
1980s and 1990s for Korea s Manufacturing Industry 101
Table 4 6 Annual Research and Development Obsolescence Rates of the
United States 103
Table 4 7 Life Cycle and Obsolescence Rate of Technology Innovation 105
Table 4 8 Research and Development Deflator of the Manufacturing Industry 110
Table 4 9 Annual Research and Development Stock in the Manufacturing
Industry 112
Table 5 1 Value Added Production in the Manufacturing Industry
(1980 to 1996) 118
Table 5 2 Worker and Labor Productivity in the Manufacturing Industry 120
Table 5 3 Capital Stock in the Manufacturing Industry 122
Table 5 4 Total Factor Productivity and Increase Rate in the Manufacturing
Industry 123
Table 5 5 Value Added Growth Rate by Source of Growth in the Manufacturing
Industry 125
Table 5 6 The Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Manufacturing Industry 125
TabIe 5 7 Value Added Production in the Paper. Printing and Publishing
Industry (1980 1996) 126
Table 5 8 Worker and Labor Productivity in the Paper. Printing and Publishing
Industry 127
TabIe 5 9 Capital Stock in the Paper, Printing and Publishing Industry 128
Table 5 10 Total Factor Productivity and Increase Rate in the Paper, Printing
and Publishing Industry 129
Table 5 11 Value Added Growth Rate by Source of Growth in the Paper,
Printing, and Publishing Industry 130
Table 5 12 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Paper, Printing, and Publishing Industry 130
vii
Table 5 13 Value Added Production in the Chemical Products Industry
(1980 1996) 131
Table 5 14 Worker and Labor Productivity in the Chemical Products Industry 132
Table 5 15 Capital Stock in the Chemical Products Industry 133
Table 5 16 Total Factor Productivity and Increase Rate in the Chemical
Products Industry 134
Table 5 17 Value Added Growth Rate by Source of Growth in the Chemical
Products Industry 135
Table 5 18 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Chemical Products Industry 135
Table 5 19 Value Added Production in the Oil Refinery Industry
(1980 1996) 136
Table 5 20 Worker and Labor Productivity in the Oil Refinery Industry 137
Table 5 21 Capital Stock in the Oil Refinery Industry 138
Table 5 22 Total Factor Productivity and Increase Rate in the Oil Refinery
Industry 139
Table 5 23 Value Added Growth Rate by Source of Growth in the Oil Refinery
Industry 140
Table 5 24 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Oil Refinery Industry 140
Table 5 25 Value Added Production in the Rubber and Plastics Industry
(1980 1996) 141
Table 5 26 Worker and Labor Productivity in the Rubber and Plastics Industry 142
Table 5 27 Capital Stock in the Rubber and Plastics Industry 143
Table 5 28 Total Factor Productivity and Increase Rate in the Rubber and
Plastics Industry 144
Table 5 29 Value Added Growth Rate by Source of Growth in the Rubber
and Plastics Industry 145
Table 5 30 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Rubber and Plastics Industry 145
Table 5 31 Value Added Productivity in the Nonmetallic Minerals Industry
(1980 1996) 146
Table 5 32 Worker and Labor Productivity in the Nonmetallic Minerals Industry 147
Table 5 33 Capital Stock in the Nonmetallic Minerals Industry 148
Table 5 34 Total Factor Productivity and Increase Rate in the Nonmetallic
Minerals Industry 149
viii
Table 5 35 Value Added Growth Rate by Source of Growth in the Nonmetallic
Minerals Industry 150
Table 5 36 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Nonmetallic Minerals Industry 150
Table 5 37 Value Added Production in the Primary Metals Industry
(1980 1996) 151
Table 5 38 Worker and Labor Productivity in the Primary Metals Industry 152
Table 5 39 Capital Stock in the Primary Metals Industry 153
Table 5 40 Total Productivity and Increase Rate in the Primary Metals
Industry 154
Table 5 41 Value Added Growth Rate by Source of Growth in the Primary
Metals Industry 155
Table 5 42 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Primary Metals Industry 155
Table 5 43 Value Added Production in the Assembled Metals Industry
(1980 1996) 156
Table 5 44 Worker and Labor Productivity in the Assembled Metals Industry 157
Table 5 45 Capital Stock of the Assembled Metals Industry 158
Table 5 46 Total Factor Productivity and Increase Rate in the Assembled
Metals Industry 159
Table 5 47 Value Added Growth Rate by Source of Growth in the Assembled
Metals Industry 160
Table 5 48 The Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Assembled Metals Industry 160
Table 5 49 Value Added Production in the General Machine Industry
(1980 1996) 161
Table 5 5O Worker and Labor Productivity in the General Machine Industry 162
Table 5 51 Capital Stock in the General Machine Industry 163
Table 5 52 Total Factor Productivity and Increase Rate in the General Machine
Industry 164
Table 5 53 Value Added Growth Rate by Source of Growth in the General
Machine Industry 165
Table 5 54 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the General Machine Industry 165
Table 5 55 Value Added Production in the Electric Machines Industry
(1980 1996) 166
Table 5 56 Worker and Labor Productivity in the Electric Machines Industry 167
ix ¦
Table 5 57 Capital Stock in the Electric Machines Industry 168
Table 5 5 8 Total Factor Productivity and Increase Rate in the Electric
Machines Industry 169
Table 5 59 Value Added Growth Rate by Source of Growth in the Electric
Machines Industry 170
Table 5 60 Degree of Contribution Made to the Growth of Value Added
by Source of Growth in the Electric Machines Industry 170
Tabie 5 61 Value Added Production in the Transport Machines Industry
(1980 1996) 171
Table 5 62 Worker and Labor Productivity in the Transport Machines Industry 172
Table 5 63 Capital Stock in the Transport Machines Industry 173
Table 5 64 Total Factor Productivity and Increase Rate in the Transport
Machines Industry 174
Table 5 65 Value Added Growth Rate by Basis of Growth in the Transport
Machines Industry 175
Table 5 66 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the Transport Machines Industry 175
Table 5 67 Value Added Production in the Precision Machines Industry
(1980 1996) 176
Table 5 68 Worker and Labor Productivity in the Precision Machines Industry 177
Table 5 69 Capital Stock in the Precision Machines Industry 178
Table 5 70 Total Factor Productivity and Increase Rate in the Precision
Machines Industry 179
Table 5 71 Value Added Growth Rate by Source of Growth in the Precision
Machines Industry 180
Table 5 72 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the Precision Machines Industry 180
Table 6 1 An International Comparison of the Measurement Results of
Production Function 185
Table 6 2 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the Electric Machines Industry 187
Table 6 3 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the Precision Machines Industry 189
Table 6 4 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the Transportation Industry 190
Table 6 5 Degree of Contribution Made to the Growth of Value Added by
Source of Growth in the General Machines Industry 192
Table 6 6 A Comparison of the Profitability of Research and Development Investment
between Business Level and Industry Level 196
Table6 7 Direct and Indirect Rate of Profitability of Research and
Development Investment in the Manufacturing Industry 197
Table 7 1 Objective of the Research and Development 199
Table 7 2 First Priority in Considerating Conducting on R D Project 200
Table 7 3 Weight of R D in the Company Compared with Other Areas 200
Table 7 4 Greatest Effect in the R D Decision making Process 201
Table 7 5 International Trends in Making R D Strategies 202
Table 7 6 Main Factor in Decision Making on the Scale of R D Investment 202
Table 7 7 Main Difficulty in Making a Plan and in Establishing a Budget
for R D Investment 203
Table 7 8 Greatest Problem in Recruiting Research Personnels 204
Table 7 9 Good Point in R D Implementation of a Company that is
Better than That of Other Companies 205
Table 7 10 Weak Point in R D Implementation of the Company That is
Worse than That of Other Companies 206
Table 7 11 Portion of Government Aid in implementing R D Projects 207
Table 7 12 Portion of Industries, Academies and Research Institutes in
the Process of Carrying Out a Joint Study 208
Table 7 13 Very Important Person (VIP) who Dominates the Whole Process
of R D 209
Table 7 14 Incentives in the Company Offer for Good R D Results 210
Table 7 15 Important Stage in Evaluating Performance in the Carrying Out
of R D Projects 211
Table 7 16 Important Item in Evaluating Performance in the Carrying Out
of R D Projects 212
Table 7 17 Unit Cooperating the Best with Other Agencies in the Process
of Carrying Out the Projects 213
TabIe 7 18 Greatest Obstruction in Carrying Out Projects 214
Table 7 19 Best Education and Training 215
TabIe 7 20 Difficulty in Carrying Out Education and Training for
the Research Workers 216
Table 7 21 Success Rate of a Company s Research Work in the Last
Five Years 217
xi ~
Table 7 22 Important Factor in the Commercialization of R D Results 218
Table 7 23 Main Factor in Having a Project that Fails to Produce Any
Application 219
Table 7 24 Main Factor for Making a Technology Successful in Research
Projects 220
Table 7 25 Reason for Cancelling Project on the Way 221
Table 7 26 Difficulty in Evaluating R D Projects 222
Table 7 27 R D Objectives and Weight of Government Aid in
Implementing R D Projects 223
Table 7 28 R D Objectives and Weight of Joint Project among Industries, Academies
and Research Institutes in Implementing R D Projects 224
Table 7 29 Factor in Making R D Project and Stage of Project Evaluating 225
Table 7 30 Factor in Making R D Project and Factor of Project
Evaluating 226
Table 7 31 Weight of R D among Other Areas and Weight of Joint Project among
Industries, Academies and Research Institutes in Implementing
R D Projects 227
Table 7 32 Factor in the R D Decision Making Process and Weight of
Government Aid in Implementing R D Projects 228
TabIe 7 33 Factor in the R D Decision Making Process and Weight of Joint
Projects among Industries, Academies and Research Institutes in
Implementing R D Projects 229
Table 7 34 Factor in the R D Decision Making Process and Very Important
Person (VIP) Who Dominates the Whole Process of R D 230
Table 7 35 Factor in the R D Decision Making Process and Incentives
Offering for Good R D Results 231
xii
Table 7 36 Factor in the R D a Decision Making Process and Stage in
Evaluating Performance in the Carrying Out of R D 232
Table 7 3 7 R D Objectives and Success Rate of the Company s
Research Project in the Last Five Years 233
Table 7 38 R D Objectives and Important Factor in the Commercialization
of R D Results 234
Table 7 39 Factor in Making a Plan and Success Rate of the Company s
Research Project in the Last Five Years 235
Table 7 40 Factor in Making a Plan and Factor in the Commercialization
of R D Results 237
Table 7 41 Weight of R D in a Company Compared with Other Areas
and Success Rate of the Company s Research Project in the
Last Five Years 238
Table 7 42 Weight of R D in a Company Compared with Other Areas
and Factor in the Commercialization of R D
Results 239
Table 7 43 Factor in the R D Decision Making Process and
Success Rate of the Company s Research Project in the Last Five
Years 240
Table 7 44 Factor in the R D a Decision Making Process and
Factor for Making a Technology Successful in Research
Projects 241
Table 7 45 Degree of Considering International Trends in Making R D
Strategies and Success Rate of the Company s Research
Project in the Last 5 Years 242
Table 7 46 Degree of Considering International Trends in Making R D
Strategies and Factor in Making a Technology Successful
in Research Projects 244
xiii
Table 7 47 Weight of Government Aid in Implementing R D Projects and
„ Success Rate of the Company s Research Project in the
Last 5 Years 245
Table 7 48 Weight of Joint Projects Among Industries, Academies and Research
Institutes in Implementing R D Projects and Success Rate of the
Company s Research Project in the Last 5 Years 246
Table 7 49 Very Important Person (VIP) Who Dominates the Whole Process
of R D and Success Rate of the Company s Research
Project in the Last Five Years 247
Table 7 50 Incentives System for Good R D Results and Success Rate
of the Company s Research Project in the Last Five Years 248
Table 7 51 Obstruction in Carrying Out Projects and Success Rate of the
Company s Research Project in the Last Five Years 249
TabIe 7 52 Education and Training and Success Rate of the Company s
Research Project in the Last Five Years 250
Table 7 53 ANOVA Test between Government Aid and Consideration
of International Technology 251
Table 7 5 4 ANOVA Test between Success Rate and Consideration
of International Technology 252
Table 7 55 ANOVA Test between Businesses R D Weight and Industrial
Classification 252
Table 7 56 ANOVA Test between Consideration of International Technology
and Industrial Classification 253
Table 7 57 ANOVA Test between Government Aid and Industrial
Classification 253
Table 7 58 ANOVA Test between Success Rate and Industrial
Classification 254
Table 7 59 T Test between Consideration of International Technology and
Scale of Industries 254
Table 7 60 Group Statistics between Consideration oflnternational
Technology and Scale of Industries 255
*xiv
Table 7 61 T Test between R D Weight and Scale of Industries 25,5
Table 7 62 Group Statistics between Consideration and Scale of Industries 256
Table 7 63 T Test between Government Aid and Scale of Industries 256
Table 7 64 Group Statistics between Success Rate and Scale of Industries 257
Table 7 65 T Test between Two Groups of Big Business and Medium Sized
Industry 257
Table 7 66 Group Statistics between R D Weight and Innovative Industries 258
Table 7 67 T Test between R D Weight and Innovative Industries 258
Table 7 68 Group Statistics between Consideration of International
Technology and Innovative Industries 259
Table 7 69 T Test between Consideration of International Technology and Innovative
Industries 259
Table 7 70 Group Statistics between Government Aid and Innovative
Industries 260
Table 7 71 T Test between Government Aid and Innovative Industries 260
Table 7 72 Group Statistics between Success Rate and Innovative Industries 261
Table 7 73 T Test between Success Rate and Innovative Industries 261
Figure 2 1 Efficiency Analysis 6
Figure 2 2 Allocative and X Inefficiency 8
Figure 2 3 Production Function of Neo Classical Model 12
Figure 2 4 Production Possibility Frontier 13
Figure 3 1 Trends in R D Expenditures of the Five Advanced Countries
and Korea (by GDP Comparison) 42
Figure 3 2 Density of Industrial Portion of Overall R D Expenditures
(by Industry) 43
Figure 3 3 Industry s Density of Overall R D Carried Out 44
Figure 3 4 Comparison of R D Expenditure Formation of the Five Advanced
Countries (Density in Entire Manufacturing Industry R D, in %) 52
Figure 3 5 Comparison of R D Expenditure Formation in France, England.
and the US (Density in Entire Manufacturing Industry R D, in %) 52
xv
Figure 3 6 Comparison of R D Expenditure Formation in Germany and Japan
(Density in Entire Manufacturing Industry R D, in %) 53
Figure 3 7 US Industry Patent Trends for Patents Registered in the US 54
Figure 3 8 Japanese Industry Patent Trends for Patents Registered in the US 55
Figure 3 9 European Union Industry Patent Trends for Patents Registered
in the US 56
Figure 3 10 Service Sector Portion of the Total R D by Industry 58
Figure 3 11 Degree of R D Formation and Value Added Formation in Korea 68
Figure3 12 Favorable Circulation in Fordism 76
Figure3 13 Fordism: Technology Innovation Process in a Linear Mode 78
Figure 3 14 Education Level and Frequency of Training 80
Figure 3 15 Toyotaism: Non linear Mode 81
Figure 4 1 Technology Capital Stock of the Manufacturing Industry 113
Figure 5 1 Value Added Production of the Manufacturing Industry
(Constant Price in 1990) 118
Figure 5 2 Number of Laborers in the Manufacturing Industry 120
Figure 5 3 Labor Productivity to Labor Equipment Proportion 121
Figure 5 4 Capital Productivity of the Manufacturing Industry 122
Appendix Tables
A. Table 1 Major Indicators Concerning Science and Technology Activities
by Nation 270
A. Table 2 R D Expenditures and Researchers 271
A. Table 3 R D Researchers by Year 272
A. Table 4 R D Expenditures by Character of Work 273
A. Table 5 R D Expenditures by Sector of Performance 274
A. Table 6 R D Expenditures as a Percent of Total Sales by Industry 275
A. Table 7 Personnel Engaged in R D Activities 275
A. Table 8 Budget for Research and Development 276
A. Table 9 Status of Patents Applied and Registered of Each Country 277
A. Table 10 Technological Balance of Payments 277
A. Table 11 Gross Domestic Products, Capital Stock for Manufacturing Industry 278
A. Table 12 Technology Import for Manufacturing Industry 279
A. Table 13 Gross National Products, Population. GDP Deflator 280
A. Table 14 Industrial Production Index. Price Index. Export, Import, Current
Balance, Foreign Exchange Holdings 281
A. Table 15 GDP, GNP per Capita in Selected Countries (current price) 282
A. Table 16 Exchange Rates 283
xvi
|
| any_adam_object | 1 |
| author | Kim, Eui-Jae |
| author_facet | Kim, Eui-Jae |
| author_role | aut |
| author_sort | Kim, Eui-Jae |
| author_variant | e j k ejk |
| building | Verbundindex |
| bvnumber | BV014359851 |
| classification_rvk | QG 870 |
| ctrlnum | (OCoLC)50979794 (DE-599)BVBBV014359851 |
| discipline | Wirtschaftswissenschaften |
| format | Thesis Book |
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| genre | (DE-588)4113937-9 Hochschulschrift gnd-content |
| genre_facet | Hochschulschrift |
| geographic | Südkorea (DE-588)4078029-6 gnd Korea (DE-588)4032466-7 gnd |
| geographic_facet | Südkorea Korea |
| id | DE-604.BV014359851 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T19:02:04Z |
| institution | BVB |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-009841414 |
| oclc_num | 50979794 |
| open_access_boolean | |
| owner | DE-739 DE-12 DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-703 DE-384 DE-521 DE-188 |
| owner_facet | DE-739 DE-12 DE-19 DE-BY-UBM DE-355 DE-BY-UBR DE-703 DE-384 DE-521 DE-188 |
| physical | XVI, 291 S. graph. Darst. |
| publishDate | 2001 |
| publishDateSearch | 2001 |
| publishDateSort | 2001 |
| record_format | marc |
| spelling | Kim, Eui-Jae Verfasser aut A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea von Eui-Jae Kim 2001 XVI, 291 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Saarbrücken, Univ., Diss., 2001 Hochschulschrift gtt Forschung und Entwicklung (DE-588)4017897-3 gnd rswk-swf Investitionsgüterindustrie (DE-588)4027561-9 gnd rswk-swf Verarbeitende Industrie (DE-588)4133768-2 gnd rswk-swf Produktivitätszuwachs (DE-588)4128967-5 gnd rswk-swf Südkorea (DE-588)4078029-6 gnd rswk-swf Korea (DE-588)4032466-7 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Korea (DE-588)4032466-7 g Verarbeitende Industrie (DE-588)4133768-2 s Forschung und Entwicklung (DE-588)4017897-3 s Produktivitätszuwachs (DE-588)4128967-5 s DE-604 Südkorea (DE-588)4078029-6 g Investitionsgüterindustrie (DE-588)4027561-9 s DE-188 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009841414&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Kim, Eui-Jae A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea Hochschulschrift gtt Forschung und Entwicklung (DE-588)4017897-3 gnd Investitionsgüterindustrie (DE-588)4027561-9 gnd Verarbeitende Industrie (DE-588)4133768-2 gnd Produktivitätszuwachs (DE-588)4128967-5 gnd |
| subject_GND | (DE-588)4017897-3 (DE-588)4027561-9 (DE-588)4133768-2 (DE-588)4128967-5 (DE-588)4078029-6 (DE-588)4032466-7 (DE-588)4113937-9 |
| title | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea |
| title_auth | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea |
| title_exact_search | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea |
| title_full | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea von Eui-Jae Kim |
| title_fullStr | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea von Eui-Jae Kim |
| title_full_unstemmed | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea von Eui-Jae Kim |
| title_short | A study on the relationship between research and development and productivity growth of the manufacturing industry in Korea |
| title_sort | a study on the relationship between research and development and productivity growth of the manufacturing industry in korea |
| topic | Hochschulschrift gtt Forschung und Entwicklung (DE-588)4017897-3 gnd Investitionsgüterindustrie (DE-588)4027561-9 gnd Verarbeitende Industrie (DE-588)4133768-2 gnd Produktivitätszuwachs (DE-588)4128967-5 gnd |
| topic_facet | Hochschulschrift Forschung und Entwicklung Investitionsgüterindustrie Verarbeitende Industrie Produktivitätszuwachs Südkorea Korea |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009841414&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kimeuijae astudyontherelationshipbetweenresearchanddevelopmentandproductivitygrowthofthemanufacturingindustryinkorea |