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  • P-ISSN2287-1608
  • E-ISSN2287-1616
  • KCI

Regional Resilience of Industrial Ecosystem in Financial Crisis: Comparison between Toyota-Kariya Automotive Subcontractor Cities and Hamamatsu Start-Up City

Asian Journal of Innovation and Policy / Asian Journal of Innovation and Policy, (P)2287-1608; (E)2287-1616
2018, v.7 no.1, pp.9-29
https://doi.org/10.7545/ajip.2018.7.1.009
Takao Fujiwara (Toyohashi University of Technology)

Abstract

Japan’s manufacturing is mostly dependent on the automotive industry in Toyota-Kariya cities. However, the nearby city of Hamamatsu is the home of a start-up ecosystem known as Japan’s Silicon Valley. How is it possible to evaluate the innovative potential of each regional industry? What kind of guidelines exist for continuing R&D investment when companies’ net incomes are negative in the face of the ‘Valley-of–Death’ or financial crisis? Is it possible to measure the regional resilience ability in the context of the financial crisis? Entrepreneurial innovation is defined as a real-option portfolio consisting of investment decision to commercialize R&D findings. The subcontractor system implies a vertical and tight industrial group. However, a start-up ecosystem means a platform for horizontal and flexible partnership. In this research, the data include the financial indices of each of 18 public companies in both regions between FY2009 and FY2017. The objective of this paper is to clarify the call option or resilience function of equity for R&D investment in the context of the financial crisis in both regions by using Bayesian MCMC analysis.

keywords
Start-up ecosystem, subcontractor ecosystem, real options, Bayesian MCMC analysis, regional resilience

Reference

1.

Asanuma, B. and Kikutani, T. (1992) Risk absorption in Japanese subcontracting: a microeconometric study of the automobile industry, Journal of Japan International Economics, 6(1), 1-29.

2.

Black, B.S. and Gilson, R.J. (1998) Venture capital and the structure of capital markets: banks versus stock markets, Journal of Financial Economics, 47(3), 243-77.

3.

Black, F. and Scholes, M. (1973) The pricing of options and corporate liabilities, Journal of Political Economy, 81(3), 637-59.

4.

Carayannis, E.G., Rogers, E.M., Kurihara, K. and Allbritton, M.M. (1998) High-technology spin-offs from government R&D laboratories and research universities, Technovation, 18(1), 1-11.

5.

Cusumano, M.A. (1988) Manufacturing innovation: lessons from the Japanese auto industry, MIT Sloan Management Review, 30(1), 29-39.

6.

Feldman, M.P. and Florida, R. (1994) The geographic sources of innovation:technological infrastructure and product innovation in the United States, Annals of Association of American Geography, 84(2), 210-29.

7.

Ferrary, M. and Granovetter, M. (2009) The role of venture capital firms in Silicon Valley's complex innovation network, Economy and Society, 18, 326-59.

8.

Financial Services Agency, EDINET, Accessed May 1st, 2017, Http://disclosure. edinet-fsa.go.jp

9.

Florida, R. (1995) Toward the learning region, Futures, 27(5), 527-36.

10.

Florida, R. (1999) The role of the university: leveraging talent, not technology, Issues in Science and Technology, 15(4), 67-73.

11.

Florida, R. (2003) Cities and the creative class, City Community, 2(1), 3-19.

12.

Florida, R. and Gates G. (2003) Technology and tolerance: the importance of diversity to high-tech growth, Research in Urban Policy, 9, 199-219.

13.

Florida, R.L. and Kenney, M. (1988a) Venture capital, high technology and regional development, Regional Studies, 22(1), 33-48.

14.

Florida, R.L. and Kenney, M. (1988b) Venture capital and high technology entre-preneurship, Journal of Business Venturing, 3(4), 301-19.

15.

Florida, R.L. and Kenney, M. (1990) The Breakthrough Illusion: Corporate America's Failure to Move from Innovation to Mass Production, New York: Basic Books.

16.

Fried, V.H. and Hisrich, R.D. (1994) Toward a model of venture capital investment decision making, Financial Management, 23(3), 28-37.

17.

Fujiwara, T. (2013) Toyoda father and son with Buddhist nichiren school mind: endless inventor-entrepreneurs, Values-Based Management, 3(2), 1-11.

18.

Fujiwara, T. (2014) Patient, ready, and daring would-be Shogun-spirits: a secret of Japan’s Silicon Valley, Hamamatsu, Values-Based Management, 4(1), 1-15.

19.

Gambardella, A. and Saxenina, A.L. (2001) ‘Old economy’ inputs for ‘new economy’ outcomes: cluster formation in the new Silicon Valleys, Industrial and Corporate Change, 10(4), 835-60.

20.

Glasmeier, A. (1988) Factors governing the development of high tech industry agglomerations: a tale of three cities, Regional Studies, 22(4), 287-301.

21.

Hambrecht, W.R. (1984) Venture capital and the growth of Silicon Valley, California Management Review, 16(2), 74-82.

22.

Hellmann, T. and Puri, M. (2000) The interaction between product market and financing strategy: the role of venture capital, Review of Financial Studies, 13(4), 959-84.

23.

Hellmann, T. and Puri, M. (2002) Venture capital and the professionalization of start-up firms: empirical evidence, Journal of Finance, 57(1), 169-97.

24.

Kenney, M. (2000) Understanding Silicon Valley: The Anatomy of an Entrepreneurial Region, CA: Stanford University Press.

25.

Kenney, M. and Von, B.U. (1999) Technology, entrepreneurship and path dependence: industrial clustering in Silicon Valley and Route 128, Industrial and Corporate Change, 8(1), 67-103.

26.

Kenney, M. and Florida R. (1988c) Beyond mass production: production and labour process in Japan, Politics and Society 16(1), 121-58.

27.

Kerr, W.R. (2010) Breakthrough inventions and migrating clusters of innovation, Journal of Urban Economics, 67(1), 46-60.

28.

Klepper, S. (2010) The origin and growth of industry clusters: the making of Silicon Valley and Detroit, Journal of Urban Economics, 67(1), 15-32.

29.

Merton, R.C. (1973) Theory of rational option pricing, Bell Journal of Economics and Management Science, 4(1), 141-83.

30.

Miwa, Y. and Ramseyer, J.M. (2001) Rethinking relationship - specific investments: subcontracting in the Japanese automobile industry, Michigan Law Review, 98, 2636-67.

31.

Miyashita, K. and Russell, D. (1994) Keiretsu: Inside the Hidden Japanese Conglomerates, New York: McGraw-Hill.

32.

Myers, S.C. (1977) Determinants of corporate borrowing, Journal of Finance Economics, 5(2), 147-76.

33.

Ohno, T. (1988) Toyota Production System: Beyond Large- Scale Production, Productivity Press.

34.

Rogers, E.M. and Larsen, J.K. (1984) Silicon Valley Fever: Growth of High-Technology Culture, New York: Basic Books.

35.

Saxenina, A.L. (1983) The genesis of Silicon Valley, Built Environment, 9(1), 7-17.

36.

Saxenina, A.L. (1985) Silicon Valley and Route 128: regional prototypes or historic exceptions, Urban Affairs Review, 28, 81-105.

37.

Saxenina, A.L. (1990) Regional networks and the resurgence of Silicon Valley, California Management Review, 33(1), 89-112.

38.

Saxenina, A.L. (1991) The origins and dynamics of production and networks in Silicon Valley, Research Policy, 20(5), 423-37.

39.

Saxenina, A.L. (1996a) Inside-out: regional networks and industrial adaptation in Silicon Valley and Route 128, Cityscape, 2(2), 41-60.

40.

Saxenina, A.L. (1996b) Beyond Boundaries: Open Labor Markets and Learning in Silicon Valley, in Arthur M. and Rousseau D. (eds.), Boundaryless Careers: Work, Mobility and Learning in the New Organizational Era, New York: Oxford University Press, 23-39.

41.

Saxenina, A.L. (2002) Silicon Valley’s new immigrant high-growth entrepreneurs, Economic Development Quarterly, 16 (1), 20-31.

42.

Saxenina, A.L. and Hsu, J.Y. (2001) The Silicon Valley-Hsinchu connection: technical communities and industrial upgrading, Industrial and Corporate Change, 10(4), 893-920.

43.

Saxenina, A.L., Motoyama, Y. and Quan, X. (2002) Local and Global Networks of Immigrant Professionals in Silicon Valley, CA: Public Policy Institute.

44.

Sheard, P. (1983) Auto-production systems in Japan: organisational and locational features, Geographical Research, 21(1), 49-68.

45.

Sugimori, Y., Kusunoki, K., and Cho, F. (1977) Toyota production system and Kanban system materialization of just-in-time and respect-for-human system, International Journal of Production Research, 15(6), 553-64.

46.

Takeda, Y., Kajikawa, Y., Sakata, I. and Matsushima, K. (2008) An analysis of geographical agglomeration and modularized industrial networks in a regional cluster: a case study at Yamagata prefecture in Japan, Technovation, 28(8), 531-39.

Asian Journal of Innovation and Policy