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151	Curvature arbitrage Choi, Yang Ho 01 January 2007 (has links) The Black-Scholes model is one of the most important concepts in modern financial theory. It was developed in 1973 by Fisher Black, Robert Merton and Myron Scholes and is still widely used today, and regarded as one of the best ways of determining fair prices of options. In the classical Black-Scholes model for the market, it consists of an essentially riskless bond and a single risky asset. So far there is a number of straightforward extensions of the Black-Scholes analysis. Here we consider more complex products where each component in a portfolio entails several variables with constraints. This leads to elegant models based on multivariable stochastic integration, and describing several securities simultaneously. We derive a general asymptotic solution in a short time interval using the heat kernel expansion on a Riemannian metric. We then use our formula to predict the better price of options on multiple underlying assets. Especially, we apply our method to the case known as the one of two-color rainbow ptions, outperformance option, i.e., the special case of the model with two underlying assets. This asymptotic solution is important, as it explains hidden effects in a class of financial models. curvature arbitrage multiple asset model geometric invariance Ito's formula rainbow option Applied Mathematics
152	Monte Carlo Simulation of Heston Model in MATLAB GUI Kheirollah, Amir January 2006 (has links) <p>In the Black-Scholes model, the volatility considered being deterministic and it causes some</p><p>inefficiencies and trends in pricing options. It has been proposed by many authors that the</p><p>volatility should be modelled by a stochastic process. Heston Model is one solution to this</p><p>problem. To simulate the Heston Model we should be able to overcome the correlation</p><p>between asset price and the stochastic volatility. This paper considers a solution to this issue.</p><p>A review of the Heston Model presented in this paper and after modelling some investigations</p><p>are done on the applet.</p><p>Also the application of this model on some type of options has programmed by MATLAB</p><p>Graphical User Interface (GUI).</p> Financial Modelling Exotic Option Monte Carlo Simulation Stochastic Volatility Pricing Option Heston Model Black-Scholes Model Stochastic Process MatLab GUI.
153	A high order compact method for nonlinear Black-Scholes option pricing equations with transaction costs Dremkova, Ekaterina January 2009 (has links) <p>In this work we consider the nonlinear case of Black-Scholes equation and apply it to American options. Also, method of Liao and Khaliq of high order was applied to nonlinear Black-Scholes equation in case of American options. Here, we use this method oh fourth order in time and space to raise American option price accuracy.</p> Mathematics nonlinear Black-Scholes equation Barles-Soner volatility compact methods Numerical analysis Numerisk analys Applied mathematics Tillämpad matematik
154	A high order compact method for nonlinear Black-Scholes option pricing equations with transaction costs Dremkova, Ekaterina January 2009 (has links) In this work we consider the nonlinear case of Black-Scholes equation and apply it to American options. Also, method of Liao and Khaliq of high order was applied to nonlinear Black-Scholes equation in case of American options. Here, we use this method oh fourth order in time and space to raise American option price accuracy. Mathematics nonlinear Black-Scholes equation Barles-Soner volatility compact methods Numerical analysis Numerisk analys Applied mathematics Tillämpad matematik
155	Monte Carlo Simulation of Heston Model in MATLAB GUI Kheirollah, Amir January 2006 (has links) In the Black-Scholes model, the volatility considered being deterministic and it causes some inefficiencies and trends in pricing options. It has been proposed by many authors that the volatility should be modelled by a stochastic process. Heston Model is one solution to this problem. To simulate the Heston Model we should be able to overcome the correlation between asset price and the stochastic volatility. This paper considers a solution to this issue. A review of the Heston Model presented in this paper and after modelling some investigations are done on the applet. Also the application of this model on some type of options has programmed by MATLAB Graphical User Interface (GUI). Financial Modelling Exotic Option Monte Carlo Simulation Stochastic Volatility Pricing Option Heston Model Black-Scholes Model Stochastic Process MatLab GUI.
156	Option Pricing and Virtual Asset Model System Cheng, Te-hung 07 July 2005 (has links) In the literature, many methods are proposed to value American options. However, due to computational difficulty, there are only approximate solution or numerical method to evaluate American options. It is not easy for general investors either to understand nor to apply. In this thesis, we build up an option pricing and virtual asset model system, which provides a friendly environment for general public to calculate early exercise boundary of an American option. This system modularize the well-handled pricing models to provide the investors an easy way to value American options without learning difficult financial theories. The system consists two parts: the first one is an option pricing system, the other one is an asset model simulation system. The option pricing system provides various option pricing methods to the users; the virtual asset model system generates virtual asset prices for different underlying models. jump diffusion model geometric Brownian motion GARCH model binomial model quadratic approximation method finite difference method Black-Scholes model
157	Expert System for Numerical Methods of Stochastic Differential Equations Li, Wei-Hung 27 July 2006 (has links) In this thesis, we expand the option pricing and virtual asset model system by Cheng (2005) and include new simulations and maximum likelihood estimation of the parameter of the stochastic differential equations. For easy manipulation of general users, the interface of original option pricing system is modified. In addition, in order to let the system more completely, some stochastic models and methods of pricing and estimation are added. This system can be divided into three major parts. One is an option pricing system; The second is an asset model simulation system; The last is estimation system of the parameter of the model. Finally, the analysis for the data of network are carried out. The differences of the prices between estimator of this system and real market are compared. Maximum likelihood estimation method Jump diffusion model Black-Scholes model Geometric Brownian motion Constant elasticity of volatility model
158	Illustration of stochastic processes and the finite difference method in finance Kluge, Tino 22 January 2003 (has links) (PDF) The presentation shows sample paths of stochastic processes in form of animations. Those stochastic procsses are usually used to model financial quantities like exchange rates, interest rates and stock prices. In the second part the solution of the Black-Scholes PDE using the finite difference method is illustrated. / Der Vortrag zeigt Animationen von Realisierungen stochstischer Prozesse, die zur Modellierung von Groessen im Finanzbereich haeufig verwendet werden (z.B. Wechselkurse, Zinskurse, Aktienkurse). Im zweiten Teil wird die Loesung der Black-Scholes Partiellen Differentialgleichung mittels Finitem Differenzenverfahren graphisch veranschaulicht. ddc:510 Animation Black-Scholes-Modell Finite-Differenzen-Methode Pfad <Mathematik> Stochastik Stochastischer Prozess
159	Spectral Element Method for Pricing European Options and Their Greeks Yue, Tianyao January 2012 (has links) <p>Numerical methods such as Monte Carlo method (MCM), finite difference method (FDM) and finite element method (FEM) have been successfully implemented to solve financial partial differential equations (PDEs). Sophisticated computational algorithms are strongly desired to further improve accuracy and efficiency.</p><p>The relatively new spectral element method (SEM) combines the exponential convergence of spectral method and the geometric flexibility of FEM. This dissertation carefully investigates SEM on the pricing of European options and their Greeks (Delta, Gamma and Theta). The essential techniques, Gauss quadrature rules, are thoroughly discussed and developed. The spectral element method and its error analysis are briefly introduced first and expanded in details afterwards.</p><p>Multi-element spectral element method (ME-SEM) for the Black-Scholes PDE is derived on European put options with and without dividend and on a condor option with a more complicated payoff. Under the same Crank-Nicolson approach for the time integration, the SEM shows significant accuracy increase and time cost reduction over the FDM. A novel discontinuous payoff spectral element method (DP-SEM) is invented and numerically validated on a European binary put option. The SEM is also applied to the constant elasticity of variance (CEV) model and verified with the MCM and the valuation formula. The Stochastic Alpha Beta Rho (SABR) model is solved with multi-dimensional spectral element method (MD-SEM) on a European put option. Error convergence for option prices and Greeks with respect to the number of grid points and the time step is analyzed and illustrated.</p> / Dissertation Electrical engineering Applied mathematics Finance Binary Options Black-Scholes Gauss Quadrature Option Greeks Spectral Element Method Stochastic Volatility
160	Pricing in (in)complete markets : structural analysis and applications / Esser, Angelika. January 2004 (has links) Univ., Diss.--Frankfurt (Main), 2003. / Literaturverz. S. [105] - 107.

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