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Indefinite quadratic with linear costs optimal control of Markov jump with multiplicative noise systems. (English) Zbl 1115.49021

Summary: In this paper we consider the stochastic optimal control problem of discrete-time Markov jump with multiplicative noise linear systems. The performance criterion is assumed to be formed by a linear combination of a quadratic part and a linear part in the state and control variables. The weighting matrices of the state and control for the quadratic part are allowed to be indefinite. We present a necessary and sufficient condition under which the problem is well posed and a state feedback solution can be derived from a set of coupled generalized Riccati difference equations interconnected with a set of coupled linear recursive equations. For the case in which the quadratic-term matrices are non-negative, this necessary and sufficient condition can be written in a more explicit way. The results are applied to a problem of portfolio optimization.

MSC:

49K45 Optimality conditions for problems involving randomness
49K40 Sensitivity, stability, well-posedness
93E20 Optimal stochastic control
91B28 Finance etc. (MSC2000)
60J05 Discrete-time Markov processes on general state spaces
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