Utility maximization in incomplete markets for unbounded processes
When the price processes of the nancial assets are described by possibly unbounded semimartingales, the classical concept of admissible trading strategies may lead to a trivial utility maximization problem because the set of stochastic integrals bounded from below may be reduced to the zero process....
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| Veröffentlicht in: | Finance and stochastics 2005-10, Vol.9 (4), p.493-517 |
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| creator | Biagini, Sara Frittelli, Marco |
| description | When the price processes of the nancial assets are described by possibly unbounded semimartingales, the classical concept of admissible trading strategies may lead to a trivial utility maximization problem because the set of stochastic integrals bounded from below may be reduced to the zero process. However, it could happen that the investor is willing to trade in such a risky market, where potential losses are unlimited, in order to increase his/her expected utility. We translate this attitude into mathematical terms by employing a class HW of W admissible trading strategies which depend on a loss random variable W. These strategies enjoy good mathematical properties and the losses they could generate in trading are compatible with the preferences of the agent.We formulate and analyze by duality methods the utility maximization problem on the new domain HW. We show that, for all loss variables W contained in a properly identied set W, the optimal value on the class HW is constant and coincides with the optimal value of the maximization problem over a larger domain K. The class K does not depend on a single W W, but it depends on the utility function u through its conjugate function. By duality methods we show that the solution exists in K and can be represented as a stochastic integral that is a uniformly integrable martingale under the minimax measure. We provide an economic interpretation of the larger class K and analyze some examples to show that this enlargement of the class of trading strategies is indeed necessary. [PUBLICATION ABSTRACT] |
| doi_str_mv | 10.1007/s00780-005-0163-x |
| format | Article |
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However, it could happen that the investor is willing to trade in such a risky market, where potential losses are unlimited, in order to increase his/her expected utility. We translate this attitude into mathematical terms by employing a class HW of W admissible trading strategies which depend on a loss random variable W. These strategies enjoy good mathematical properties and the losses they could generate in trading are compatible with the preferences of the agent.We formulate and analyze by duality methods the utility maximization problem on the new domain HW. We show that, for all loss variables W contained in a properly identied set W, the optimal value on the class HW is constant and coincides with the optimal value of the maximization problem over a larger domain K. The class K does not depend on a single W W, but it depends on the utility function u through its conjugate function. By duality methods we show that the solution exists in K and can be represented as a stochastic integral that is a uniformly integrable martingale under the minimax measure. We provide an economic interpretation of the larger class K and analyze some examples to show that this enlargement of the class of trading strategies is indeed necessary. 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By duality methods we show that the solution exists in K and can be represented as a stochastic integral that is a uniformly integrable martingale under the minimax measure. We provide an economic interpretation of the larger class K and analyze some examples to show that this enlargement of the class of trading strategies is indeed necessary. 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| subjects | Econometrics Expected utility Financial assets Financial economics Financial research Investment policy Markov analysis Mathematical methods Random variables Stochastic models Stochastic processes Studies Utility functions |
| title | Utility maximization in incomplete markets for unbounded processes |
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