Abstract
We study a class of optimal stochastic control problems arising from the control of movements. Exact solutions are first presented for linear cases for both the during- and post-movement control problem, depending on a parameter α > 0 . It is found that for the Langevin type equation and for the post-movement control case, a non-degenerate solution exists only when α > 1 / 2 . For the Langevin type equation and for the during-movement control, a non-degenerate solution is found when α > 1 . For the post-movement control and the Hamiltonian type equation, an optimal control signal is obtained and is non-degenerate when α > 1 / 2 . Again for the during-movement control, we find an optimal non-degenerate control signal when α > 1 . All results are then generalized to nonlinear control cases (the first order perturbation of linear cases). Numerical examples are included to illustrate the applications of our results.
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