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Yazmín V. Soriano-Morales, Francisco Venegas-Martínez and Benjamín Vallejo-Jiménez
 
''Determination of the equilibrium expansion rate of money when money supply is driven by a time-homogeneous Markov modulated jump diffusion process ''
( 2015, Vol. 35 No.4 )
 
 
This paper is aimed at developing a general equilibrium model useful to determine the equilibrium expansion rate of money supply in a small open stochastic economy. The marginal change of money supply incorporates stylized facts in emerging economies reported in empirical literature such as regime switches in volatility and unexpected sudden jumps (interventions). To model these essentials, money supply will be driven by a time-homogeneous Markov modulated jump diffusion process. Under this framework, it is found that the expansion rate of money supply depends on the current exchange rate depreciation, the interest rate, the average size on the jump process, and the regime switching in volatility. The proposed model allows using the Monte Carlo method to simulate the average path of the equilibrium expansion rate of money.
 
 
Keywords: Money supply, general equilibrium, Markov modulated jump diffusion process, Monte Carlo simulation.
JEL: E5 - Monetary Policy, Central Banking, and the Supply of Money and Credit: General
D5 - General Equilibrium and Disequilibrium: General
 
Manuscript Received : Jun 08 2015 Manuscript Accepted : Oct 02 2015

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