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Performance of hedging strategies in interval models

Berend Roorda, Jacob Engwerda, Johannes M. Schumacher (2005)

Kybernetika

For a proper assessment of risks associated with the trading of derivatives, the performance of hedging strategies should be evaluated not only in the context of the idealized model that has served as the basis of strategy development, but also in the context of other models. In this paper we consider the class of so-called interval models as a possible testing ground. In the context of such models the fair price of a derivative contract is not uniquely determined and we characterize the interval...

Pricing exotic options under a high-order Markovian regime switching model.

Ching, Wai-Ki, Siu, Tak-Kuen, Li, Li-Min (2007)

Journal of Applied Mathematics and Decision Sciences

Pricing multi-asset financial derivatives with time-dependent parameters -- Lie algebraic approach.

Lo, C.F., Hui, C.H. (2002)

International Journal of Mathematics and Mathematical Sciences

Pricing variance swaps for stochastic volatilities with delay and jumps.

Swishchuk, Anatoliy, Xu, Li (2011)

International Journal of Stochastic Analysis

Quantile hedging for basket derivatives

Michał Barski (2012)

Applicationes Mathematicae

The problem of quantile hedging for basket derivatives in the Black-Scholes model with correlation is considered. Explicit formulas for the probability maximizing function and the cost reduction function are derived. Applicability of the results to the widely traded derivatives like digital, quantos, outperformance and spread options is shown.

Recovery of time-dependent parameters of a Black-Scholes-type equation: An inverse Stieltjes moment approach.

Rodrigo, Marianito R., Mamon, Rogemar S. (2007)

Journal of Applied Mathematics

Refined wing asymptotics for the Merton and Kou jump diffusion models

Stefan Gerhold, Johannes F. Morgenbesser, Axel Zrunek (2015)

Banach Center Publications

Refining previously known estimates, we give large-strike asymptotics for the implied volatility of Merton's and Kou's jump diffusion models. They are deduced from call price approximations by transfer results of Gao and Lee. For the Merton model, we also analyse the density of the underlying and show that it features an interesting "almost power law" tail.

Representation of continuous linear forms on the set of ladlag processes and the hedging of American claims under proportional costs.

Chassagneux, Jean-Francois, Bouchard, Bruno (2009)

Electronic Journal of Probability [electronic only]

Solution of option pricing equations using orthogonal polynomial expansion

Falko Baustian, Kateřina Filipová, Jan Pospíšil (2021)

Applications of Mathematics

We study both analytic and numerical solutions of option pricing equations using systems of orthogonal polynomials. Using a Galerkin-based method, we solve the parabolic partial differential equation for the Black-Scholes model using Hermite polynomials and for the Heston model using Hermite and Laguerre polynomials. We compare the obtained solutions to existing semi-closed pricing formulas. Special attention is paid to the solution of the Heston model at the boundary with vanishing volatility.

Some short elements on hedging credit derivatives

Philippe Durand, Jean-Frédéric Jouanin (2007)

ESAIM: Probability and Statistics

In practice, it is well known that hedging a derivative instrument can never be perfect. In the case of credit derivatives (e.g. synthetic CDO tranche products), a trader will have to face some specific difficulties. The first one is the inconsistence between most of the existing pricing models, where the risk is the occurrence of defaults, and the real hedging strategy, where the trader will protect his portfolio against small CDS spread movements. The second one, which is the main subject of...

Spectral approximation of infinite-dimensional Black-Scholes equations with memory.

Chang, Mou-Hsiung, Youree, Roger K. (2009)

Journal of Applied Mathematics and Stochastic Analysis

Superconvergence estimates of finite element methods for American options

Qun Lin, Tang Liu, Shu Hua Zhang (2009)

Applications of Mathematics

In this paper we are concerned with finite element approximations to the evaluation of American options. First, following W. Allegretto etc., SIAM J. Numer. Anal. 39 (2001), 834–857, we introduce a novel practical approach to the discussed problem, which involves the exact reformulation of the original problem and the implementation of the numerical solution over a very small region so that this algorithm is very rapid and highly accurate. Secondly by means of a superapproximation and interpolation...

Symmetry and new solutions of the Black-Scholes equation.

Sukhomlin, Nikolay (2004)

Boletín de la Asociación Matemática Venezolana

The completion of real-asset markets by options.

Kountzakis, Christos E. (2010)

International Journal of Mathematics and Mathematical Sciences

The $d X (t) = X b (X) d t + X σ (X) d W$ equation and financial mathematics. I

Josef Štěpán, Petr Dostál (2003)

Kybernetika

The existence of a weak solution and the uniqueness in law are assumed for the equation, the coefficients $b$ and $σ$ being generally $C (ℝ^{+})$ -progressive processes. Any weak solution $X$ is called a $(b, σ)$ -stock price and Girsanov Theorem jointly with the DDS Theorem on time changed martingales are applied to establish the probability distribution $μ_{σ}$ of $X$ in $C (ℝ^{+})$ in the special case of a diffusion volatility $σ (X, t) = \tilde{σ} (X (t)) .$ A martingale option pricing method is presented.

The Hull-White model and multiobjective calibration with consistent curves: empirical evidence.

A. Falcó, Ll. Navarro, J. Nave (2009)

RACSAM

The martingale method of shortfall risk minimization in a discrete time market

Marek Andrzej Kociński (2012)