A new stability result for the modified Craig–Sneyd scheme applied to two-dimensional convection–diffusion equations with mixed derivatives

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摘要

The Modified Craig–Sneyd scheme is an alternating direction implicit(ADI) type scheme that was introduced by In ’t Hout and Welfert (2009) [12] in order to numerically solve multidimensional convection–diffusion equations with mixed-derivative terms. It is one of the most prominent ADI schemes currently known for their efficiency in solving above type of problems. This paper deals with a useful stability result for the Modified Craig–Sneyd scheme when applied to two-dimensional convection–diffusion equations with mixed derivative term. The stability of the scheme is analyzed in the von Neumann framework, effectively taking into account the actual size of the mixed derivative term. This study is relevant to an observation of apparent discrepancy in a real world application of the scheme, i.e., in computational finance. The obtained results not only generalize some of the existing stability results, but also clearly justify this surprising observation theoretically.

论文关键词:Convection–diffusion equations,Initial-boundary value problems,ADI schemes,Von Neumann stability analysis,Computational finance

论文评审过程:Received 23 July 2015, Revised 18 February 2016, Accepted 17 March 2016, Available online 8 April 2016, Version of Record 8 April 2016.

论文官网地址:https://doi.org/10.1016/j.amc.2016.03.022