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Simulation-based design of dynamic controllers for humanoid balancing

Jie Tan, Zhaoming Xie, Byron Boots, C. Karen Liu

Year
2016
Citations
45

Abstract

Model-based trajectory optimization often fails to find a reference trajectory for under-actuated bipedal robots performing highly-dynamic, contact-rich tasks in the real world due to inaccurate physical models. In this paper, we propose a complete system that automatically designs a reference trajectory that succeeds on tasks in the real world with a very small number of real world experiments. We adopt existing system identification techniques and show that, with appropriate model parameterization and control optimization, an iterative system identification framework can be effective for designing reference trajectories. We focus on a set of tasks that leverage the momentum transfer strategy to rapidly change the whole-body from an initial configuration to a target configuration by generating large accelerations at the center of mass and switching contacts.

Keywords

Computer scienceHumanoid robotControl engineeringEngineeringRobotArtificial intelligence

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