2023
DOI: 10.4236/jmf.2023.131006
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Numerical Approximation of Information-Based Model Equation for Bermudan Option with Variable Transaction Costs

Abstract: Non-linear partial differential equations have been increasingly used to model the price of options in the realistic market setting when transaction costs arising in the hedging of portfolios are taken into account. This paper focuses on finding the numerical solution of the non-linear partial differential equation corresponding to a Bermudan call option price with variable transaction costs for an asset under the information-based framework. The finite difference method is implemented to approximate the optio… Show more

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Cited by 3 publications
(2 citation statements)
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“…Any numerical approach, like Finite Difference Schemes, Finite Element Methods, and Spectral Methods, can be utilized to obtain the numerical solution for the pricing equation. For the specific case of solving Equation ( 18) using Finite Difference Methods, refer to [42]. This approach can be extended to incorporate the arbitrage measure into the equation.…”
Section: Letmentioning
confidence: 99%
See 1 more Smart Citation
“…Any numerical approach, like Finite Difference Schemes, Finite Element Methods, and Spectral Methods, can be utilized to obtain the numerical solution for the pricing equation. For the specific case of solving Equation ( 18) using Finite Difference Methods, refer to [42]. This approach can be extended to incorporate the arbitrage measure into the equation.…”
Section: Letmentioning
confidence: 99%
“…Equation ( 16) defines the modified volatility, considering non-increasing exponential costs. [42] provides additional details on how the numerical approximation of the modified volatility is conducted using the explicit finite difference scheme. By considering transaction costs, the model effectively reduces stochastic volatility.…”
Section: Pricing With Arbitragementioning
confidence: 99%