Policy Decomposition: Approximate Optimal Control with Suboptimality Estimates - Robotics Institute Carnegie Mellon University

Policy Decomposition: Approximate Optimal Control with Suboptimality Estimates

Ashwin Khadke and Hartmut Geyer
Conference Paper, Proceedings of IEEE-RAS 20th International Conference on Humanoid Robots (Humanoids '20), pp. 185 - 192, July, 2021

Abstract

Numerically computing global policies to optimal control problems for complex dynamical systems is mostly intractable. In consequence, a number of approximation methods have been developed. However, none of the current methods can quantify how much the resulting control underperforms the elusive globally optimal solution. Here we propose policy decomposition, an approximation method with explicit suboptimality estimates. Our method decomposes the optimal control problem into lower-dimensional subproblems, whose optimal solutions are recombined to build a control policy for the entire system. Many such combinations exist, and we introduce the value error and its LQR and DDP estimates to predict the suboptimality of possible combinations and prioritize the ones that minimize it. Using a cart-pole, a 3-link balancing biped and N-link planar manipulators as example systems, we find that the estimates correctly identify the best combinations, yielding control policies in a fraction of the time it takes to compute the optimal control without a notable sacrifice in closed-loop performance. While more research will be needed to find ways of dealing with the combinatorics of policy decomposition, the results suggest this method could be an effective alternative for approximating optimal control in intractable systems.

BibTeX

@conference{Khadke-2021-132521,
author = {Ashwin Khadke and Hartmut Geyer},
title = {Policy Decomposition: Approximate Optimal Control with Suboptimality Estimates},
booktitle = {Proceedings of IEEE-RAS 20th International Conference on Humanoid Robots (Humanoids '20)},
year = {2021},
month = {July},
pages = {185 - 192},
publisher = {IEEE},
keywords = {Optimal Control, Hierarchical Control},
}