[RA-L/IROS22] Understanding Physical Effects for Effective Tool-use

Abstract

We present a robot learning and planning framework that produces an effective tool-use strategy with the least joint efforts, capable of handling objects different from training. Leveraging a Finite Element Method (FEM)-based simulator that reproduces fine-grained, continuous visual and physical effects given observed tool-use events, the essential physical properties contributing to the effects are identified through the proposed Iterative Deepening Symbolic Regression (IDSR) algorithm. We further devise an optimal control-based motion planning scheme to integrate robot- and tool-specific kinematics and dynamics to produce an effective trajectory that enacts the learned properties. In simulation, we demonstrate that the proposed framework can produce more effective tool-use strategies, drastically different from the observed ones in two exemplar tasks.

Publication
In IEEE Robotics and Automation Letters (RA-L)
Yixin Zhu
Yixin Zhu
Assistant Professor

I build humanlike AI.

Song-Chun Zhu
Song-Chun Zhu
Chair Professor
Hangxin Liu
Hangxin Liu
Research Scientist

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