We study the problem of computing the lower hedging price of an American contingent claim in a finite-state discrete-time market setting under proportional transaction costs. We derive a new mixed-integer linear programming formulation for calculating the lower hedging price. The linear programming relaxation of the formulation is exact in frictionless markets. Our results imply that it might be optimal for the holder of several identical American claims to exercise portions of the portfolio at different time points in the presence of proportional transaction costs while this incentive disappears in their absence. © 2010 Springer Science+Business Media, LLC
In a discrete setting, we develop a model for pricing a contingent claim. Since the presence of hedg...
We analyze the problem of pricing and hedging contingent claims in the multi-period, discrete time, ...
This paper was printed using funds made available by the Deutsche Forschungsgemeinschaft. Abstract: ...
Cataloged from PDF version of article.We study the problem of computing the lower hedging price of a...
The lower hedging problem with a minimal expected surplus risk criterion in incomplete markets is st...
We consider pricing of American contingent claims (ACC) as well as their special cases, in a multi-p...
Cataloged from PDF version of article.We describe a challenging class of large mixed-integer second-...
We analyze the problem of pricing and hedging contingent claims in the multi-period, discrete time, ...
International audienceIn this note, we consider a general discrete time financial market with propor...
American options are considered in the binary tree model under small proportional transaction costs....
We propose a new approach to the pricing and hedging of contingent claims under transaction costs in...
Ankara : The Department of Industrial Engineering and the Institute of Engineering and Science of Bi...
In 1985 Leland suggested an approach to price contingent claims under proportional transaction costs...
In this note, we consider a general discrete time financial market with proportional transaction cos...
Cataloged from PDF version of article.We analyze the problem of pricing and hedging contingent claim...
In a discrete setting, we develop a model for pricing a contingent claim. Since the presence of hedg...
We analyze the problem of pricing and hedging contingent claims in the multi-period, discrete time, ...
This paper was printed using funds made available by the Deutsche Forschungsgemeinschaft. Abstract: ...
Cataloged from PDF version of article.We study the problem of computing the lower hedging price of a...
The lower hedging problem with a minimal expected surplus risk criterion in incomplete markets is st...
We consider pricing of American contingent claims (ACC) as well as their special cases, in a multi-p...
Cataloged from PDF version of article.We describe a challenging class of large mixed-integer second-...
We analyze the problem of pricing and hedging contingent claims in the multi-period, discrete time, ...
International audienceIn this note, we consider a general discrete time financial market with propor...
American options are considered in the binary tree model under small proportional transaction costs....
We propose a new approach to the pricing and hedging of contingent claims under transaction costs in...
Ankara : The Department of Industrial Engineering and the Institute of Engineering and Science of Bi...
In 1985 Leland suggested an approach to price contingent claims under proportional transaction costs...
In this note, we consider a general discrete time financial market with proportional transaction cos...
Cataloged from PDF version of article.We analyze the problem of pricing and hedging contingent claim...
In a discrete setting, we develop a model for pricing a contingent claim. Since the presence of hedg...
We analyze the problem of pricing and hedging contingent claims in the multi-period, discrete time, ...
This paper was printed using funds made available by the Deutsche Forschungsgemeinschaft. Abstract: ...