Free Online Productivity Tools
i2Speak
i2Symbol
i2OCR
iTex2Img
iWeb2Print
iWeb2Shot
i2Type
iPdf2Split
iPdf2Merge
i2Bopomofo
i2Arabic
i2Style
i2Image
i2PDF
iLatex2Rtf
Sci2ools
SIGGRAPH
2010
ACM
2010
ACM
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.
Real-time TrafficComputer Graphics | Many Unknown Factors | Physics-based Walking Controllers | SIGGRAPH 2010 | Uncertainty Increases Robustness |
Related Content
| Added | 28 Jul 2010 |
| Updated | 29 Jul 2010 |
| Type | Conference |
| Year | 2010 |
| Where | SIGGRAPH |
| Authors | Jack M. Wang, David J. Fleet, Aaron Hertzmann |
Comments (0)
Researcher Info
|
