Daniel Andersson, Boualem Djehiche
Published 2007-12-03, updated 2008-02-15Version 2
We study relaxed stochastic control problems where the state equation is a one dimensional linear stochastic differential equation with random and unbounded coefficients. The two main results are existence of an optimal relaxed control and necessary conditions for optimality in the form of a relaxed maximum principle. The main motivation is an optimal bond portfolio problem in a market where there exists a continuum of bonds and the portfolio weights are modeled as measure-valued processes on the set of times to maturity.
A mixed relaxed singular maximum principle for linear SDEs with random coefficients
Maximum principle for stochastic optimal control problem under convex expectation
Maximum principle for optimal control of forward-backward doubly stochastic differential equations with jumps
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