The Proof of Analogous Results for Martingales and Partial Differential Equations Options Price Valuation Formulas Using Stochastic Differential Equation Models in Finance
Authors: H. D. Ibrahim, H. C. Chinwenyi, A. H. Usman
Abstract:
Valuing derivatives (options, futures, swaps, forwards, etc.) is one uneasy task in financial mathematics. The two ways this problem can be effectively resolved in finance is by the use of two methods (Martingales and Partial Differential Equations (PDEs)) to obtain their respective options price valuation formulas. This research paper examined two different stochastic financial models which are Constant Elasticity of Variance (CEV) model and Black-Karasinski term structure model. Assuming their respective option price valuation formulas, we proved the analogous of the Martingales and PDEs options price valuation formulas for the two different Stochastic Differential Equation (SDE) models. This was accomplished by using the applications of Girsanov theorem for defining an Equivalent Martingale Measure (EMM) and the Feynman-Kac theorem. The results obtained show the systematic proof for analogous of the two (Martingales and PDEs) options price valuation formulas beginning with the Martingales option price formula and arriving back at the Black-Scholes parabolic PDEs and vice versa.
Keywords: Option price valuation, Martingales, Partial Differential Equations, PDEs, Equivalent Martingale Measure, Girsanov Theorem, Feyman-Kac Theorem, European Put Option.
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[1] Statistics Department –International Monetary Fund (1998). Eleventh Meeting of the IMF Committee on Balance of Payments Statistics on Financial Derivatives. Washington, D.C., October 21-23, 1998. (BOPCOM98/1/20).
[2] Heath, D. & Schweizer, M. (2000). Martingales versus PDEs in Finance: An Equivalence Result with Examples. A Journal of Applied Probability, 37, 947-957.
[3] Privault, N. (2016). Notes on Stochastic Finance. Chapter 6 on Martingale Approach to Pricing and Hedging, December 20, 2016.
[4] Haugh, M. (2010). Introduction to Stochastic Calculus. Financial Engineering: Continuous-Time Models.
[5] Sarkka, S. (2012). Lecture 5: Further Topics; Series Expansions, Feynman-Kac, Girsanov Theorem, Filtering Theory. Aalto University, Tampere University of Technology and Lappeenranta University of Technology, Finland.
[6] Cox, J. C. (1975). The Constant Elasticity of Variance Option Pricing Model. Journal of Portfolio Management, Special Issue December, 1996, 15-17.
[7] Black, F. & Karasinski, P. (1991). Bond and Option Pricing when Short Rates are Lognormal. Financial Analysts Journal, July-August 1991, 52-59.