Loading...
|
Please use this identifier to cite or link to this item:
https://nccur.lib.nccu.edu.tw/handle/140.119/103639
|
Title: | 技術變動之測定與臺灣製造業成長之實證分析 |
Authors: | 蔡豐清 |
Contributors: | 吳家聲 蔡豐清 |
Date: | 1985 |
Issue Date: | 2016-11-09 17:06:57 (UTC+8) |
Abstract: | 論文提要 根據行政院主計處的統計,國內生產淨額中各業所占的百分比,以製造業所佔的比重最大,民國73年中,佔約36.24%。政府自一九六○年來所實施的獎勵投資條例中,主要的策略包括減稅、加速折舊,進出機器設備關稅之免除以及加工出口區的設立,再再地加速了製造業的快速發展而成為工業部門中的關鍵性產業,在政府積極的輔導策略之下,使製造業部門的產業與技術結構更趨向資本密集與技術密集化。 本文的目的,乃利用民國50年至72年製造業之實際資料,從Translog成本函數出發來測定技術變動的偏向,文中並探討影響技術變動偏向的原因,說明技術變動測定時的分析方法。在計量方法上,我們利用「表面上沒有關聯的迴歸系統」(Seemingly Unrelated Regression System)與「反覆三階段最小平方法(Iterative Three-Stage Least Square Method)進行聯立方程式體系的估計。我們發現民國51年至72年,製造業本身不斷地因應國際經濟情勢以調整整個產業在要素投入使用的方向及結構。五十年代約略是少用資本,少用勞動、少用能源及多用中間投入的技術偏向,59及60年的出口快速擴張造成61年的偏向型態為多用資本、少用勞動、多用能源、少用中間投入。62年石油危機之後,製造業不斷改善生產設備,調整要素使用比率,民國65年以後政府的輔導策略再再地使製造業(民國七十年代)在技術變動型態上,相對地走向多用資本、多用勞動、少用能源,及多用中間投入的偏向,使製造業的生產結構更趨向資本密集及技術密集化。 長期間技術變動不僅可以降低產出成本、改善品質,為社會提供更多的財貨與勞務,並可提升就業水準,因而本文架構一個生產力成長的兩部門模型來探討製造業生產力成長及其對營造業、水電煤氣業及礦業的生產力的影響,並探討影響工業部門生產力成長的因素。我們發現:製造業的產出成長對於其他三業別的勞動生產力有其外部經濟的功效,就業快速的增加,使得勞動的成長大於廠商產量的成長,因而減緩勞動生產力的增加,資本存量的變動除礦業之外,對其他三業別的生產力成長均有提升的效果,這與民國72年製造業技術變動偏向:「多用資本、少用勞動、少用能源與多用中間投入」的走向頗為一致。 第一章 緒論 1 第一節 研究動機與目的1 第二節 本文架構與研究方法2 第二章 生產函數模型之引介4 第一節 線型齊次生產函數5 第二節 非齊向生產函數14 第三節 生產函數型式的選擇19 第三章 技術變動之測定與經濟分析32 第一節 技術變動的一般均衡分析32 第二節 非中立性技術變動的參數分析法44 第三節 技術變動的測定:台灣製造業技術變動之實證研究50 第四章 技術變動、產出與就業成長79 第一節 技術變動對產出與就業之影響79 第二節 生產力成長之兩部門模型86 第三節 台灣製造業生產力成長之實證分析91 第五章 結論與未來研究方向98
表次 表一:常用的線型生產函數型式26 表二:台灣製造業要素價格、產出與成本59 表三:台灣製造業要素成本份額60 表四:聯立方程式Iterative 3SLS的參數估計值64 表五:dBK, dBL , dBE及 dBM之計算值66 表六:民國51年至72年製造業技術變動型態68 表六(a):民國51年至72年製造業技術變動偏向簡表69 表七:資本深化度變動率、資本利用率變動率及出口值變動率70 表八:影響技術變動偏向因素之迴歸結果71 表九:工業部門生產力成長之迴歸分析93 附表一:工業部門就業人口101 附表二:工業部門實質國內生產毛額102 附表三:工業部門受雇員工平均工時統計103 附表四:工業部門實質資本存量104 附表五:工業部門勞動生產力105 |
Reference: | 一、中文部份: 1.吳家聲〔1974〕:技術進步與台灣經濟發展,政大經濟學研究所碩士論文,7月。 2.吳家聲〔1983a〕:「台灣地區製造業技術與能源需求之研究」,台銀季刊,34卷第4期,P. 20~40 . 3.吳家聲〔1983b〕:「台灣地區製造業技術變動及要素替代性分析--李昂提夫函數之運用」,台灣經濟,第80期,P. P. 19~30 . 4.吳家聲 〔1984〕:「技術變動理論與實證分析(上)」,中美技術季刊,29卷2期,P. P. 55~64 . 5.吳家聲〔1985〕:「技術變動探討與台灣實證分析」,台灣經濟,第98期,P. 14~77. 6.梁啟源〔1983〕:能源價格政策與台灣製造業之技術變動,台灣工業發展研討會,3月。 7.許嘉棟老師:“個體經濟理論”課堂筆記。 8.行政院主計處 〔1983〕:台灣各級產業生產函數模型,專題研究報告第十三種,十二月。 二.英文部份: 1. Applbaum E., (1979): “On the Choice of Functional Form”, International Economic Review, June, pp. 449-458. 2. Amemiya, T(1977): “The Maximum Likelihood Estimator and the Nonlinear Three-Stage Least Squares Estimator in the General Nonlinear Simultaneous Equation Model”. Econometrica, vol. 45, No. 4 May, pp. 955-68. 3. Arrow, K. J. & M.D. Intriligator ed. (1982): Handbook of Mathematical Economics, volume Ⅱ , North-Holland publishing company, Chapter 10. pp. 431-90. 4. Arrow K. J., Chenery H. B., Minhas B.S., and Solow R. M.(1961): “Capital-Labor Substitution and Economic Efficiency”, Review of Economics & Statistics, Aug. pp. 225-235. 5. Berndt E. R. & Khaled M. S. (1979): “Parametric Productivity Measurement and Choice among Flexible Functional Forms”, Journal of Political Economy, Dec. pp. 1220-1245. 6. Berndt E. R. & Wood D.O. (1975): “Technology, Prices, and the Derived Demand for Energy”, Review of Economics and Statistics, Aug. , pp. 259-268. 7. Berndt E. R. & Wood D.O (1979): “Engineering and Econometric Interpretations of Energy-Capital Complementarity”, American Economic Review., June, pp. 342-354. 8. Bergstrom, V. & H. Melander (1979): “Production Functions and Factor Demand Functions in Postwar Swedish Industry”, Scandinavian Journal of Economics. 9. Binswanger, H. P. (1974): “The Measurement of Technical Change Biases with many Factors of Production”. American Economic Review, vol. 64, No. 5, Dec. pp. 964-76. 10. Bodkin, R.G. & L. R. Klein (1967): “Nonlinear Estimation of Aggregate Production Function, ” Review of Economics and Statistics. Feb. 11. Bruno, M (1969): “Estimation of Factor contribution to growth under Structural Disequilibrium”, International Economic Review, 9:49-62. 12. Burmeister, E. & A. R. Dobell (1969): “Disembodied Technological Change With Several Factors. ” Journal of Economic Theory, vol. 1, No. 1, June 1969, pp. 1-8. 13. Chatterji, M. & Wicken, M. R. (1982): “Productivity, Factor Transfers and Economic Growth,” Economica, 49, 21-38. 14. Christensen, L. R., D. W. Jorgenson, and L. J. Lau (1971): “Conjugate Duality and the Transcendental Logarithmic Production Function.” Econometrica, Vol. 39, No. 4, July, pp. 255-6. 15.________(1973): “Transcendental Logarithmic Production Frontiers”. Review of Economics & Statistics, vol. 55, No. 1, Feb. pp. 28-45. 16. Caves, D. W., L. R. Christensen and W. E. Diewert (1982): “ The Economic Theory of Index Numbers and the Measurement of Input, Output,. and Productivity.”, Econometrica, vol. 50, pp. 1393-1414. 17. Corbo, V. and Meller, P. (1979): “The Translog Production Function,” Journal of Econometrics, Feb. pp. 193-199. 18. David P.A. and Klundert van de (1965): “Biased Efficiency Growth and Capital-Labor Substitution in the United States 1899-1960.” American Economic Review, June, pp. 357-94. 19. Denny M. (1974): “The Relationship Between Functional Forms for the Production System”, Canadian Journal of Economics, Feb. pp. 21-31. 20. Diamond P.A. McFadden, D. and Rodriguez M. (1978) :“Measurement of the Elasticity of Factor Substitution and the Bias of Technical Change”, in Production Economics: A Dual Approach to Theory and Applications, vol. 2, edited by Fuss, M. & McFadden, D. Amsterdam, North-Holland. 21. Diewert W. E. (1974): “Applications of Duality Theory”, in Frontiers of Quantitative Economics, volⅡ, edited by Intriligator M.D. & Kendrick D. A. Amesterdam, North-Holland. 22. ________(1976): “Exact and Superlative Index Numbers”, Journal of Econometrics, May, pp. 115-145. 23. Forsund, F. R. ed., (1984): Topics in Production Theory, Macmillan Press Ltd. 24. Fisher, D. (1983): Macroeconomic Theory: A Survey, Chap 4. 25. Fuss, M.A., D. McFadden, and Y. Mundlak (1978): “A Survey of Functional Forms in the Economic Analysis of Production”, in M.A. Fuss and D. McFadden (ed.s), Production Economics, A Dual. Approach to Theory and Applications, vol. 1, North-Holland. 26. Fomby, T. B., R. C. Hill & S.R. Johnson., (1984): Advanced Econometric Methods, Springer-Verlag. 27. Gallant, A. R. and D. W. Jorgenson (1979): “Statistical Inference for a System of Simultaneous, Nonlinear, Implicit Equation in the Context of Instrumental Variable Estimation.” Journal of Econometrics, vol. 11, No. 2/3, Oct./Dec. , pp. 275-302. 28. Humphrey, D. B. and J. R. Moroney (1975): “Substitution Among Capital, Labor, and National Resource Products in American Manufacturing,” Journal of Political Economy, Feb. 29. Hildebrand, G. H. & T. Liu (1965): “Manufacturing Production Functions in the United States, 1957”, Cornell University Press. 30. Hudson, E. A. and D. W. Jorgenson (1974): “U.S. Energy Policy and Economic Growth, 1975-2000”, Bell Journal, Autumn. 31. Jorgenson, D. W. (1983): “Modeling Production for General Equilibrium Analysis”, The Scandinavian Journal of Economics, vol. 85, No. 2. 32. Jorgenson, D. W., and B. M. Fraumeni (1981), “Relative Prices and Technical Change,” In E. Berndt and B. Field, eds., Modeling and Measuring Natural Resource Substitution, Cambridge, MIT Press. 33. Jorgenson, D. W., and J. J. Laffont (1974): “Efficient Estimation of Nonlinear Simultaneous Equations with Additive Disturbance,” Annals of Social and Economic Measurement, vol. 3, No. 4, Oct. , pp. 615-40. 34. Jorgenson, D. W., and L. J. Lau (1983): Transcendental Logarithmic Production Functions, Amsterdam, North-Holland. 35. Kalt, J.P. (1978): “Technological Change and Factor Substitution in the United States: 1929-1967”, International Economic Review (Oct.) 36. Kadiyala, K. R. (1972): “Production Functions and Elasticity of Substitution”, Southern Economic Journal, Jan. 37. Kopp, R.J. & V. K. Smith (1985): “The Measurement of Non-Neutral Technological Change”, International Economic Review, vol. 26, No. 1, Feb. 38. Lau, L. J. (1980): “Application of Profit Function”, in Fuss McFadden, eds. (1980) 39. Levy V. (1981): “Total Factor Productivity, Non- Neutral Technical Change and Economic Growth-A Parametric Study of a Developing Economy”, Journal of Development Economics, pp. 93-109. 40. Lu, Y. and L.B. Fletcher (1968): “A Generalization of the CES Production Function”, Review of Economics Statistics, Nov. 41. May J.D. & Denny M. (1979): “Factor-Augmenting Technical Progress and Productivity in U.S. Manufacturing”, International Economic Review, Oct. pp. 759-774. 42. McFadden, D. (1963): “Constant Elasticity of Substitution Production Function”, Review of Economic Studies, vol. 30, No. 83, June, pp.78-83. 43. Nakamura, S., (1984): An Inter-Industry Translog Model of Prices and Technical Change For the West German Economy. Springer-Verlag. 44. Judge, G. G., R. C. Hill, W. Griffiths., H. Lütkepohl & T. C. Lee (1982): Introduction to the Theory and Practice of Econometrics, John Wiley & Sons. 45. Pindyck R. S. & D. Rubinfeld (1981): Econometric Models and Economic Forecasts, 2nd, New York, McGraw-Hill. 46. Revankar, N. S. (1971): “A Class of Variable Elasticity of Substitution Production Function”, Econometrica, Jan. 47. Ringstad, V. (1978): “Economies of Scale and the Form of the Production Function: Some New Estimates”, Scandinavian Journal of Economics, No. 3. 48. Scarf, H.E., & J.B. Shoven eds. (1984): Applied General Equilibrium Analysis. Cambridge University Press. 49. Stevenson R. (1980): “Measuring Technological Bias”, American Economic Review, March, pp. 162-173. 50. Stoneman, P. (1983): The Economic Analysis of Technological Change, Oxford University Press. Chap. 11-12. 51. Sato, R. (1977): “Homothetic and Non-Homothetic CES Production Functions”, American Economic Review, Sep. 52. Sato, R. & R. F. Hoffman (1968): “Production Functions with Variable Elasticity of Factor Substitution: Some Analysis and Testing,” Review of Economics & Statistics, Nov. 53. SAS/ETS USER’S GUIDE: BASICS, 1982 ed. by SAS Institute Inc. 54. SAS/ETS USER’S GUIDE: STATISTICS, 1982 ed. by SAS Institute Inc. 55. Wharton Economic Forecasting Associates (WEFA): Data Bank Manual. 56. Theil, H. (1971): Principles of Econometrics, John Wiley & Sons. 57. Uzawa, H. (1962): “Production Functions with Constant Elasticity of Substitution,” Review of Economic Studies, vol. 29, No. 81, Oct. pp. 291-9. 58. Varian, H.R. (1984): Microeconomic Analysis, 2nd, W.W. Norton & Company, Inc., Chap 1 & 4. 59. Zellner, A (1962): “An Efficient Method of Estimating Seemingly Unrelated Regressions and Tests for Aggregation Bias.” Journal of the American Statistical Association, 57, pp. 348-368. 60. Zellner, A. & H. Theil (1962): “Three-Stage Least Squares: Simultaneous Estimation of Simultaneous Equations”, Econometrica, 30, pp. 54-78. |
Relation: | 國立政治大學 經濟研究所 碩士 73 |
Data Type: | thesis |
Appears in Collections: | [經濟學系] 學位論文
|
Files in This Item:
File |
Description |
Size | Format | |
index.html | | 0Kb | HTML2 | 371 | View/Open |
|
All items in 政大典藏 are protected by copyright, with all rights reserved.
|