Radoslav L. Valkov scite author profile

Radoslav L. Valkov

5Publications

35Citation Statements Received

119Citation Statements Given

How they've been cited

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118

Affiliations

University of Antwerp, Sofia University

Publications

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Fitted finite volume method for a generalized Black–Scholes equation transformed on finite interval

Valkov

2013

Numer Algor

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A generalized Black-Scholes equation is considered on the semiaxis. It is transformed on the interval (0, 1) in order to make the computational domain finite. The new parabolic operator degenerates at the both ends of the interval and we are forced to use the Gärding inequality rather than the classical coercivity. A fitted finite volume element space approximation is constructed. It is proved that the time θ-weighted full discretization is uniquely solvable and positivity-preserving. Numerical experiments, performed to illustrate the usefulness of the method, are presented.

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Finite volume difference scheme for a degenerate parabolic equation in the zero-coupon bond pricing

Chernogorova

Valkov

2011

Mathematical and Computer Modelling

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In this paper we solve numerically a degenerate parabolic equation with dynamical boundary conditions of zero-coupon bond pricing. First, we discuss some properties of the differential equation. Then, starting from the divergent form of the equation we implement the finite-volume method of S. Wang [16] to discretize the differential problem. We show that the system matrix of the discretization scheme is a M -matrix, so that the discretization is monotone. This provides the non-negativity of the price with respect to time if the initial distribution is nonnegative. Numerical experiments demonstrate the efficiency of our difference scheme near the ends of the interval where the degeneration occurs.

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American option pricing problem transformed on finite interval

Gyulov

Valkov

2014

International Journal of Computer Mathematics

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We study theAmerican option pricing linear complementarity problem (LCP), transformed on finite interval as it is initially defined on semi-infinite real axis. We aim to validate this transformation, investigating the well-posedness of the resulting problem in weighted Sobolev spaces. The monotonic penalty method reformulates the LCP as a semi-linear partial differential equation (PDE) and our analysis of the penalized problem results in uniform convergence estimates. The resulting PDE is further discretized by a fitted finite volume method since the transformed partial differential operator degenerates on the boundary. We show solvability of the semi-discrete and fully discrete problems. The Brennan-Schwarz algorithm is also presented for comparison of the numerical experiments, given in support to our theoretical considerations.

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Finite volume method for the Black-Scholes equation transformed on finite interval

Valkov¹

2012

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Convergence of a finite volume element method for a generalized Black-Scholes equation transformed on finite interval

Valkov

2014

Numer Algor

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