Title :
Numerical solutions to the Witsenhausen counterexample by approximating networks
Author :
Baglietto, Marco ; Parisini, Thomas ; Zoppoli, Riccardo
Author_Institution :
Dept. of Commun. Comput. & Syst. Sci., Genoa Univ., Italy
fDate :
9/1/2001 12:00:00 AM
Abstract :
Approximate solutions to the Witsenhausen counterexample (1968) are derived by constraining the unknown control functions to take on fixed structures containing “free” parameters to be optimized. Such structures are given by “nonlinear approximating networks”, i.e., linear combinations of parametrized basis functions that benefit by density properties in normed linear spaces. This reduces the original functional problem to a nonlinear programming one which is solved via stochastic approximation. The method yields lower values of the costs than the ones achieved so far in the literature, and, most of all, provides rather a complete overview of the shapes of the optimal control functions when the two parameters that characterize the Witsenhausen counterexample vary. One-hidden-layer neural networks are chosen as approximating networks
Keywords :
function approximation; neural nets; nonlinear programming; optimal control; Ritz method; Witsenhausen counterexample; functional optimisation; neural networks; nonlinear approximating networks; nonlinear programming; optimal control; stochastic approximation; Constraint optimization; Cost function; Functional programming; Linear approximation; Neural networks; Optimal control; Shape control; State estimation; Stochastic processes; Sufficient conditions;
Journal_Title :
Automatic Control, IEEE Transactions on
