论文信息 - Keyframe Movement Optimization for Simulated Humanoid Robot Using a Parallel Optimization Framework

Keyframe Movement Optimization for Simulated Humanoid Robot Using a Parallel Optimization Framework

Motion control for a high degrees of freedom humanoid robot is one the hardest problems in Mobile Robotics. Researchers have been very successful in designing walking motions using reduced order mathematical models based on the ZMP approach. However, this approach is unable to design very dynamic motions, such as movements to get up and long distance kicks. In these cases, keyframe movements have proven to be a successful technique. Therefore, this paper presents a system that allows a parallel approach for optimizing keyframe movements for the Robocup 3D Soccer Simulation League. Moreover, optimization results obtained using this system are shown to validate it.

Carlos H. C. Ribeiro | Francisco Muniz | Marcos R. O. A. Maximo

[1] Peter Norvig,et al. Artificial Intelligence: A Modern Approach , 1995 .

[2] Nikolaus Hansen,et al. The CMA Evolution Strategy: A Tutorial , 2016, ArXiv.

[3] Peter Stone,et al. Generalized model learning for Reinforcement Learning on a humanoid robot , 2010, 2010 IEEE International Conference on Robotics and Automation.

[4] Patrick MacAlpine,et al. Keyframe Sampling, Optimization, and Behavior Integration: Towards Long-Distance Kicking in the RoboCup 3D Simulation League , 2014, RoboCup.

[5] Patrick MacAlpine,et al. UT Austin Villa RoboCup 3D Simulation Base Code Release , 2016, RoboCup.

[6] Rei Luis. Optimizing Simulated Humanoid Robot Skills , 2013 .

[7] Riccardo Poli,et al. Particle swarm optimization , 1995, Swarm Intelligence.

[8] Stephan Freytag. An Introduction To Splines For Use In Computer Graphics And Geometric Modeling , 2016 .