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SIGGRAPH
2010
ACM

Optimizing walking controllers for uncertain inputs and environments

14 years 3 months ago
Optimizing walking controllers for uncertain inputs and environments
We introduce methods for optimizing physics-based walking controllers for robustness to uncertainty. Many unknown factors, such as external forces, control torques, and user control inputs, cannot be known in advance and must be treated as uncertain. These variables are represented with probability distributions, and a return function scores the desirability of a single motion. Controller optimization entails maximizing the expected value of the return, which is computed by Monte Carlo methods. We demonstrate examples with different sources of uncertainty and task constraints. Optimizing control strategies under uncertainty increases robustness and produces natural variations in style.
Jack M. Wang, David J. Fleet, Aaron Hertzmann
Added 28 Jul 2010
Updated 29 Jul 2010
Type Conference
Year 2010
Where SIGGRAPH
Authors Jack M. Wang, David J. Fleet, Aaron Hertzmann
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