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INFLATION AND GROWTH: A NON-MONOTONIC RELATIONSHIP IN AN INNOVATION-DRIVEN ECONOMY

Published online by Cambridge University Press:  03 September 2019

Zhijie Zheng
Affiliation:
Southwestern University of Finance and Economics
Chien-Yu Huang*
Affiliation:
Nanjing Audit University
Yibai Yang
Affiliation:
University of Macau
*
Address correspondence to: Chien-Yu Huang, Institute of Urban Development, Nanjing Audit University, Nanjing, Jiangsu, 211815, China. e-mail: chuang4@ncsu.edu. Phone: (+86) 18608044407.

Abstract

This paper investigates the effects of monetary policy on long-run economic growth via different cash-in-advance (CIA) constraints on R&D in a Schumpeterian growth model with vertical and horizontal innovations. The relationship between inflation and growth is contingent on the relative extents of CIA constraints and diminishing returns to two types of innovation. This model can generate a mixed (monotonic or non-monotonic) relationship between inflation and growth, given that the relative strength of monetary effects on growth between different CIA constraints and that of R&D-labor-reallocation effects between different diminishing returns vary with the nominal interest rate. In the empirically relevant case where horizontal R&D is subject to larger diminishing returns than vertical R&D, inflation and growth can exhibit an inverted-U relationship when the CIA constraint on horizontal R&D is sufficiently larger than that on vertical R&D. Finally, we calibrate the model to the US economy and find that the growth-maximizing rate of inflation is around 2.4%, which is consistent with the recent empirical estimates.

Type
Articles
Copyright
© Cambridge University Press 2019

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Footnotes

We are grateful to the editors (Alberto Bucci and Guido Cozzi) and one anonymous referee for their helpful comments and generous suggestions. We also thank Angus Chu and seminar/conference participants at the Finance and Economic Growth in the Aftermath of the Crisis Conference for the useful discussion and feedback, as well as Eugene Cao for technical support. Chien-Yu Huang also acknowledges the research support from China National Philosophy and Social Science Fund (16BJL089). The usual disclaimer applies.

References

REFERENCES

Acemoglu, D. and Akcigit, U. (2012) Intellectual property rights policy, competition and innovation. Journal of the European Economic Association 10(1), 142.CrossRefGoogle Scholar
Acemoglu, D., Akcigit, U. and Celik, M. A. (2014) Young, restless and creative: Openness to disruption and creative innovations. National Bureau of Economic Research.CrossRefGoogle Scholar
Ahmed, S. and Rogers, J. H. (2000) Inflation and the great ratios: Long term evidence from the US. Journal of Monetary Economics 45(1), 335.CrossRefGoogle Scholar
Akicigit, U. (2009) Firm Size, Innovation Dynamics and Growth. 2009 Meeting papers 1267, Society for Economic Dynamics.Google Scholar
Ang, J. B. and Madsen, J. B. (2011) Can second-generation endogenous growth models explain the productivity trends and knowledge production in the Asian miracle economies? Review of Economics and Statistics 93(4), 13601373.CrossRefGoogle Scholar
Arawatari, R., Hori, T. and Mino, K. (2018) On the nonlinear relationship between inflation and growth: A theoretical exposition. Journal of Monetary Economics 94, 7993.CrossRefGoogle Scholar
Audretsch, D. B., Keilbach, M. C. and Lehmann, E. E. (2006) Entrepreneurship and Economic Growth. New York: Oxford University Press.CrossRefGoogle Scholar
Barro, R. J. (2013) Inflation and economic growth. Annals of Economics & Finance 14(1), 85109.Google Scholar
Blundell, R., Griffith, R. and Windmeijer, F. (2002) Individual effects and dynamics in count data models. Journal of Econometrics 108(1), 113131.CrossRefGoogle Scholar
Brown, J. R., Martinsson, G. and Petersen, B. C. (2012) Do financing constraints matter for R&D? European Economic Review 56(8), 15121529.CrossRefGoogle Scholar
Brown, J. R. and Petersen, B. C. (2011) Cash holdings and R&D smoothing. Journal of Corporate Finance 17(3), 694709.CrossRefGoogle Scholar
Bruno, M. and Easterly, W. (1998) Inflation crises and long-run growth. Journal of Monetary Economics 41(1), 326.CrossRefGoogle Scholar
Burdekin, R. C. K., Denzau, A. T., Keil, M. W., Sitthiyot, T. and Willett, T. D. (2004) When does inflation hurt economic growth? Different nonlinearities for different economies. Journal of Macroeconomics 26(3), 519532.CrossRefGoogle Scholar
Caggese, A. (2019) Financing constraints, radical versus incremental innovation, and aggregate productivity. American Economic Journal: Macroeconomics 11(2), 275309.Google Scholar
Chu, A. C. and Cozzi, G. (2014) R&D and Economic Growth in a Cash-in-Advance Economy. International Economic Review 55(2), 507524.CrossRefGoogle Scholar
Chu, A. C., Cozzi, G., Furukawa, Y. and Liao, C.-H. (2017) Inflation and economic growth in a Schumpeterian model with endogenous entry of heterogeneous firms. European Economic Review 98, 392409.CrossRefGoogle Scholar
Chu, A. C. and Lei, J. (2016) Monetary policy and endogenous market structure in a Schumpeterian economy. Macroeconomic Dynamics 20(5), 11271145.CrossRefGoogle Scholar
Chu, A. C. and Chong Lai, C. (2013) Money and the welfare cost of inflation in an R&D growth model. Journal of Money, Credit and Banking 45(1), 233249.CrossRefGoogle Scholar
Cooley, T. and Hansen, G. (1989) The inflation tax in a real business cycle model. The American Economic Review 79(4), 733748.Google Scholar
Eggoh, J. C. and Khan, M. (2014) On the nonlinear relationship between inflation and economic growth. Research in Economics 68(2), 133143.CrossRefGoogle Scholar
Fischer, S. (1983) Inflation and growth. National Bureau of Economic Research.CrossRefGoogle Scholar
Garcia-Macia, D., Hsieh, C.-T. and Klenow, P. J. (2016) How destructive is innovation? National Bureau of Economic Research.CrossRefGoogle Scholar
Ghosh, A. and Phillips, S. (1998) Warning: Inflation may be harmful to your growth. Staff Papers 45(4), 672710.CrossRefGoogle Scholar
Ha, J. and Howitt, P. (2007) Accounting for Trends in Productivity and R&D: A Schumpeterian critique of semi-endogenous growth theory. Journal of Money, Credit and Banking 39(4), 733774.CrossRefGoogle Scholar
Hall, B. H. (1992) Investment and research and development at the firm level: Does the source of financing matter? National bureau of economic research.CrossRefGoogle Scholar
Hall, B. H. and Lerner, J. (2010) The financing of R&D and innovation. In: Bronwyn, H. Hall, Rosenberg, Nathan (ed.) Handbook of the Economics of Innovation, vol. 1, pp. 609639. North-Holland.CrossRefGoogle Scholar
Himmelberg, C. P. and Petersen, B. C. (1994) R&D and internal finance: A panel study of small firms in high-tech industries. The Review of Economics and Statistics 76(1), 3851.CrossRefGoogle Scholar
Howitt, P. (1999) Steady endogenous growth with population and R&D inputs growing. Journal of Political Economy 107(4), 715730.CrossRefGoogle Scholar
Huang, C.-Y., Chang, J.-J. and Ji, L. (2015) Inflation, market structure, and innovation-driven growth with various cash constraints. Working paper, Institute of Economics, Academia Sinica.Google Scholar
Jones, C. I. and Williams, J. C. (2000) Too much of a good thing? The economics of investment in R&D. Journal of Economic Growth 5(1), 6585.CrossRefGoogle Scholar
Kremer, S., Bick, A. and Nautz, D. (2013) Inflation and growth: New evidence from a dynamic panel threshold analysis. Empirical Economics 44(2), 861878.CrossRefGoogle Scholar
Laitner, J. and Stolyarov, D. (2013) Derivative ideas and the value of intangible assets. International Economic Review 54(1), 5995.CrossRefGoogle Scholar
Lanjouw, J. O. (1998) Patent protection in the shadow of infringement: Simulation estimations of patent value. Review of Economic Studies 65(4), 671710.CrossRefGoogle Scholar
López-Villavicencio, A. and Mignon, V. (2011) On the impact of inflation on output growth: Does the level of inflation matter? Journal of Macroeconomics 33(3), 455464.CrossRefGoogle Scholar
Madsen, J. B. (2008) Semi-endogenous versus Schumpeterian growth models: Testing the knowledge production function using international data. Journal of Economic growth 13(1), 126.CrossRefGoogle Scholar
Marquis, M. H. and Reffett, K. L. (1994) New technology spillovers into the payment system. Economic Journal 104(426), 11231138.CrossRefGoogle Scholar
McDermott, C. M. and Colarelli O’Connor, G. (2002) Managing radical innovation: An overview of emergent strategy issues. Journal of Product Innovation Management 19(6), 424438.CrossRefGoogle Scholar
Peretto, P. F. (1996) Sunk costs, market structure, and growth. International Economic Review 37(4), 895923.CrossRefGoogle Scholar
Peretto, P. F. (1998) Technological change and population growth. Journal of Economic Growth 3(4), 283311.CrossRefGoogle Scholar
Peretto, P. F. and Connolly, M. (2007) The Manhattan metaphor. Journal of Economic Growth 12(4), 329350.CrossRefGoogle Scholar
Romer, P. M. (1990) Endogenous technological change. Journal of Political Economy 98(5, Part 2), S71S102.CrossRefGoogle Scholar
Sarel, M. (1996) Nonlinear effects of inflation on economic growth. IMF Staff Papers 43(1), 199215.CrossRefGoogle Scholar
Segerstrom, P. S. (2000) The long-run growth effects of R&D subsidies. Journal of Economic Growth 5(3), 277305.CrossRefGoogle Scholar
Vaona, A. (2012) Inflation and growth in the long run: A new Keynesian theory and further semiparametric evidence. Macroeconomic Dynamics 16(1), 94132.CrossRefGoogle Scholar
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