Title :
Neural approximation of PDE solutions: An application to reachability computations
Author :
Djeridane, Badis ; Lygeros, John
Author_Institution :
Autom. Control Lab., ETH-Zurich, Zurich
Abstract :
We consider the problem of computing viability sets for nonlinear continuous systems. Our main goal is to deal with the "curse of dimensionality", the exponential growth of the computation in the dimension of the state space. The viability problem is formulated as an optimal control problem whose value function is known to be a viscosity solution to a particular type of Hamilton Jacobi partial differential equation. We propose a trial solution based on a feed-forward neural network for the Hamilton Jacobi equation with the given boundary conditions. We use random extractions from the state space to generate training points and then employ the r-algorithm for non smooth optimization to train the network. We illustrate the method on a 2 dimensional example from aerodynamic envelope protection
Keywords :
continuous systems; feedforward neural nets; nonlinear control systems; optimal control; partial differential equations; reachability analysis; Hamilton Jacobi partial differential equation; feed-forward neural network; neural approximation; nonlinear continuous system; optimal control; r-algorithm; reachability computation; Computer applications; Continuous time systems; Feedforward neural networks; Feedforward systems; Jacobian matrices; Neural networks; Optimal control; Partial differential equations; State-space methods; Viscosity;
Conference_Titel :
Decision and Control, 2006 45th IEEE Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
1-4244-0171-2
DOI :
10.1109/CDC.2006.377184
