Efficient Tactile Simulation with Differentiability for Robotic Manipulation

Jie Xu, Sangwoon Kim, Tao Chen, Alberto Rodriguez Garcia, Pulkit Agrawal, Wojciech Matusik, Shinjiro Sueda

CoRL 2022 pp. 1488-1498

/corl/2022/xu2022corl-efficient/

Abstract

Efficient simulation of tactile sensors can unlock new opportunities for learning tactile-based manipulation policies in simulation and then transferring the learned policy to real systems, but fast and reliable simulators for dense tactile normal and shear force fields are still under-explored. We present a novel approach for efficiently simulating both the normal and shear tactile force field covering the entire contact surface with an arbitrary tactile sensor spatial layout. Our simulator also provides analytical gradients of the tactile forces to accelerate policy learning. We conduct extensive simulation experiments to showcase our approach and demonstrate successful zero-shot sim-to-real transfer for a high-precision peg-insertion task with high-resolution vision-based GelSlim tactile sensors.

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Cite

Text

Xu et al. "Efficient Tactile Simulation with Differentiability for Robotic Manipulation." Conference on Robot Learning, 2022.

Markdown

[Xu et al. "Efficient Tactile Simulation with Differentiability for Robotic Manipulation." Conference on Robot Learning, 2022.](https://mlanthology.org/corl/2022/xu2022corl-efficient/)

BibTeX

@inproceedings{xu2022corl-efficient,
  title     = {{Efficient Tactile Simulation with Differentiability for Robotic Manipulation}},
  author    = {Xu, Jie and Kim, Sangwoon and Chen, Tao and Garcia, Alberto Rodriguez and Agrawal, Pulkit and Matusik, Wojciech and Sueda, Shinjiro},
  booktitle = {Conference on Robot Learning},
  year      = {2022},
  pages     = {1488-1498},
  volume    = {205},
  url       = {https://mlanthology.org/corl/2022/xu2022corl-efficient/}
}