Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-28T00:45:15.272Z Has data issue: false hasContentIssue false

MONETARY POLICY AND ENDOGENOUS MARKET STRUCTURE IN A SCHUMPETERIAN ECONOMY

Published online by Cambridge University Press:  29 December 2014

Angus C. Chu
Affiliation:
University of Liverpool
Lei Ji*
Affiliation:
OFCE Sciences-Po and SKEMA Business School, Sophia Antipolis
*
Address correspondence to: Lei Ji, OFCE Sciences-Po and SKEMA Business School, Sophia Antipolis, France; e-mail: [email protected].

Abstract

This study develops a monetary Schumpeterian model with endogenous market structure (EMS) to explore the effects of monetary policy on the number of firms, firm size, economic growth, and social welfare. EMS leads to different results from previous studies in which market structure is exogenous. In the short run, a higher nominal interest rate reduces the growth rates of innovation, output, and consumption and decreases firm size through reduction in labor supply. In the long run, a higher nominal interest rate reduces the equilibrium number of firms but has no steady-state effect on economic growth and firm size because of EMS. Although monetary policy has no long-run growth effect, increasing the nominal interest rate permanently reduces the levels of output, consumption, and employment. Taking transition dynamics into account, we find that welfare is decreasing in the nominal interest rate and the Friedman rule is optimal in this economy.

Type
Articles
Copyright
Copyright © Cambridge University Press 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Aghion, Philippe and Howitt, Peter (2005) Growth with quality-improving innovations: An integrated framework. In Aghion, P. and Durlauf, S. (eds.), Handbook of Economic Growth, pp. 67110. Amsterdam: North-Holland.Google Scholar
Aghion, Philippe and Howitt, Peter (2008) The Economics of Growth. Cambridge, MA: MIT Press.Google Scholar
Bernstein, Jeffrey and Nadiri, M. Ishaq (1988) Interindustry R&D spillovers, rates of return, and production in high-tech industries. American Economic Review 78, 429434.Google Scholar
Bernstein, Jeffrey and Nadiri, M. Ishaq (1989) Research and development and intra-industry spillovers: An empirical application of dynamic duality. Review of Economic Studies 56, 249267.CrossRefGoogle Scholar
Bullard, James (1999) Testing long-run monetary neutrality propositions: Lessons from the recent research. Federal Reserve Bank of St. Louis Review Nov, 5777.CrossRefGoogle Scholar
Chen, Been-Lon, Hsu, Mei, and Lu, Chia-Hui (2008) Inflation and growth: Impatience and a qualitative equivalence. Journal of Money, Credit and Banking 40, 13091323.CrossRefGoogle Scholar
Chu, Angus and Cozzi, Guido (2014) R&D and economic growth in a cash-in-advance economy. International Economic Review 55, 507524.CrossRefGoogle Scholar
Chu, Angus and Lai, Ching-Chong (2013) Money and the welfare cost of inflation in an R&D growth model. Journal of Money, Credit and Banking 45, 233249.CrossRefGoogle Scholar
Chu, Angus, Lai, Ching-Chong, and Liao, Chih-Hsing (2012) A Tale of Two Growth Engines: Interactive Effects of Monetary Policy and Intellectual Property Rights. Munich Personal RePEc Archive paper 40372.Google Scholar
Cohen, Wesley and Klepper, Steven (1996a) A reprise of size and R&D. Economic Journal 106, 925951.CrossRefGoogle Scholar
Cohen, Wesley and Klepper, Steven (1996b) Firm size and the nature of innovation within industries: The case of process and product R&D. Review of Economics and Statistics 78, 232243.CrossRefGoogle Scholar
Dinopoulos, Elias and Thompson, Peter (1998) Schumpeterian growth without scale effects. Journal of Economic Growth 3, 315335.CrossRefGoogle Scholar
Dosi, Giovanni (1988) Sources, procedures, and microeconomic effects of innovation. Journal of Economic Literature 26, 11201171.Google Scholar
Dotsey, Michael and Ireland, Peter (1996) The welfare cost of inflation in general equilibrium. Journal of Monetary Economics 37, 2947.CrossRefGoogle Scholar
Etro, Federico (2009) Endogenous Market Structures and the Macroeconomy. New York: Springer.CrossRefGoogle Scholar
Evers, Michael, Niemann, Stefan, and Schiffbauer, Marc (2007) Inflation, Investment Composition and Total Factor Productivity. Economics discussion paper 632, University of Essex.Google Scholar
Fisher, Mark and Seater, John (1993) Long-run neutrality and superneutrality in an ARIMA framework. American Economic Review 83, 402415.Google Scholar
Funk, Peter and Kromen, Bettina (2010) Inflation and innovation-driven growth. B.E. Journal of Macroeconomics (Topics) 10, Article 23.CrossRefGoogle Scholar
Gillman, Max and Kejak, Michal (2005) Contrasting models of the effect of inflation on growth. Journal of Economic Surveys 19, 113136.CrossRefGoogle Scholar
Gomme, Paul (1993) Money and growth revisited: Measuring the costs of inflation in an endogenous growth model. Journal of Monetary Economics 32, 5177.CrossRefGoogle Scholar
Ha, Joonkyung and Howitt, Peter (2007) Accounting for trends in productivity and R&D: A Schumpeterian critique of semi-endogenous growth theory. Journal of Money, Credit and Banking 39, 733774.CrossRefGoogle Scholar
Heer, Burkhard and Maußner, Alfred (in press) The cash-in-advance constraint in monetary growth models with labor market search. Macroeconomic Dynamics.Google Scholar
Ho, Wai-Ming, Zeng, Jinli, and Zhang, Jie (2007) Inflation taxation and welfare with externalities and leisure. Journal of Money, Credit, and Banking 39, 105131.CrossRefGoogle Scholar
Howitt, Peter (1999) Steady endogenous growth with population and R&D inputs growing. Journal of Political Economy 107, 715730.CrossRefGoogle Scholar
Huang, Chien-yu, Chang, Juin-Jen, and Ji, Lei (2013) Cash-in-Advance Constraints on R&D in a Schumpeterian Growth Model with Endogenous Market Structure. Institute of Economics, Academia Sinica working paper 13-A009.Google Scholar
Jaffe, Adam (1986) Technological opportunity and spillovers of R&D: Evidence from firms' patents, profits, and market value. American Economic Review 76, 9841001.Google Scholar
King, Robert and Watson, Mark (1997) Testing long-run neutrality. Federal Reserve Bank of Richmond 83, 69101.Google Scholar
Lai, Ching-Chong and Chin, Chi-Ting (2013) Monetary rules and endogenous growth in an open economy. Macroeconomic Dynamics 17, 431463.CrossRefGoogle Scholar
Laincz, Christopher and Peretto, Pietro (2006) Scale effects in endogenous growth theory: An error of aggregation not specification. Journal of Economic Growth 11, 263288.CrossRefGoogle Scholar
Lucas, Robert (1980) Equilibrium in a pure currency economy. Economic Inquiry 18, 203220.CrossRefGoogle Scholar
Marquis, Milton and Reffett, Kevin (1994) New technology spillovers into the payment system. Economic Journal 104, 11231138.CrossRefGoogle Scholar
Mino, Kazuo (1997) Long-run effects of monetary expansion in a two-sector model of endogenous growth. Journal of Macroeconomics 19, 635655.CrossRefGoogle Scholar
Mulligan, Casey and Sala-i-Martin, Xavier (1997) The optimum quantity of money: Theory and evidence. Journal of Money, Credit, and Banking 29, 687715.CrossRefGoogle Scholar
Peretto, Pietro (1996) Sunk costs, market structure, and growth. International Economic Review 37, 895923.CrossRefGoogle Scholar
Peretto, Pietro (1998) Technological change and population growth. Journal of Economic Growth 3, 283311.CrossRefGoogle Scholar
Peretto, Pietro (1999) Cost reduction, entry, and the interdependence of market structure and economic growth. Journal of Monetary Economics 43, 173195.CrossRefGoogle Scholar
Peretto, Pietro (2007) Corporate taxes, growth and welfare in a Schumpeterian economy. Journal of Economic Theory 137, 353382.CrossRefGoogle Scholar
Peretto, Pietro (2011) The growth and welfare effects of deficit-financed dividend tax cuts. Journal of Money, Credit and Banking 43, 835869.CrossRefGoogle Scholar
Peretto, Pietro (2013) From Smith to Schumpeter: A Theory of Take-Off and Convergence to Sustained Growth. Economic Research Initiatives at Duke working paper 148.Google Scholar
Peretto, Pietro and Seater, John (2013) Factor-eliminating technological change. Journal of Monetary Economics 60, 459473.CrossRefGoogle Scholar
Santomero, Anthony and Seater, John (1996) Alternative monies and the demand for media of exchange. Journal of Money, Credit and Banking 28, 942960.CrossRefGoogle Scholar
Segerstrom, Paul (2000) The long-run growth effects of R&D subsidies. Journal of Economic Growth 5, 277305.CrossRefGoogle Scholar
Stockman, Alan (1981) Anticipated inflation and the capital stock in a cash-in-advance economy. Journal of Monetary Economics 8, 387393.CrossRefGoogle Scholar
Tobin, James (1965) Money and economic growth. Econometrica 33, 671684.CrossRefGoogle Scholar
Vaona, Andrea (2012) Inflation and growth in the long run: A new Keynesian theory and further semiparametric evidence. Macroeconomic Dynamics 16, 94132.CrossRefGoogle Scholar
Wang, Ping and Yip, Chong (1992) Alternative approaches to money and growth. Journal of Money, Credit and Banking 24, 553562.CrossRefGoogle Scholar
Wu, Yangru and Zhang, Junxi (2001) The effects of inflation on the number of firms and firm size. Journal of Money, Credit and Banking 33, 251271.CrossRefGoogle Scholar
Young, Alwyn (1998) Growth without scale effects. Journal of Political Economy 106, 4163.CrossRefGoogle Scholar