Description
Novel Methods in Computational Finance, 1st ed. 2017
The European Consortium for Mathematics in Industry Series
Language: English
Subjects for Novel Methods in Computational Finance:
Keywords
nonlinear Black-Scholes equations; Lie Algebra techniques; Lévy methods; high-dimensional partial differential equations; optimal control techniques; calibration; positivity preservation; artificial boundary condition; transformation techniques; mixed derivatives; correlation; model order reduction; uncertainty quantification; ADI-methods; GPU programming; partial differential equations; quantitative finance
Publication date: 05-2018
Support: Print on demand
Publication date: 09-2017
Support: Print on demand
Description
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This book discusses the state-of-the-art and open problems in computational finance. It presents a collection of research outcomes and reviews of the work from the STRIKE project, an FP7 Marie Curie Initial Training Network (ITN) project in which academic partners trained early-stage researchers in close cooperation with a broader range of associated partners, including from the private sector.
The aim of the project was to arrive at a deeper understanding of complex (mostly nonlinear) financial models and to develop effective and robust numerical schemes for solving linear and nonlinear problems arising from the mathematical theory of pricing financial derivatives and related financial products. This was accomplished by means of financial modelling, mathematical analysis and numerical simulations, optimal control techniques and validation of models.
In recent years the computational complexity of mathematical models employed in financial mathematics has witnessed tremendous growth. Advanced numerical techniques are now essential to the majority of present-day applications in the financial industry.
Special attention is devoted to a uniform methodology for both testing the latest achievements and simultaneously educating young PhD students. Most of the mathematical codes are linked into a novel computational finance toolbox, which is provided in MATLAB and PYTHON with an open access license. The book offers a valuable guide for researchers in computational finance and related areas, e.g. energy markets, with an interest in industrial mathematics.
Offers new or improved methods for dealing with volatility of the financial market
Includes concise discussion of modelling, analysis and numerical solution methods for nonlinear Black-Scholes equations
Several sections devoted to GPU programming techniques for solving financial problems
Special chapter on software includes the Computational Finance Toolbox that provides insights to the detailed implementation of the proposed methods
