Co-Learning of Task and Sensor Placement for Soft Robotics

Author(s)

Spielberg, Andrew; Amini, Alexander; Chin, Lillian; Matusik, Wojciech; Rus, Daniela

Abstract

Unlike rigid robots which operate with compact degrees of freedom, soft robots must reason about an infinite dimensional state space. Mapping this continuum state space presents significant challenges, especially when working with a finite set of discrete sensors. Reconstructing the robot's state from these sparse inputs is challenging, especially since sensor location has a profound downstream impact on the richness of learned models for robotic tasks. In this work, we present a novel representation for co-learning sensor placement and complex tasks. Specifically, we present a neural architecture which processes on-board sensor information to learn a salient and sparse selection of placements for optimal task performance. We evaluate our model and learning algorithm on six soft robot morphologies for various supervised learning tasks, including tactile sensing and proprioception. We also highlight applications to soft robot motion subspace visualization and control. Our method demonstrates superior performance in task learning to algorithmic and human baselines while also learning sensor placements and latent spaces that are semantically meaningful.

Date issued

2021

URI

https://hdl.handle.net/1721.1/143791

Department

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory

Journal

IEEE Robotics and Automation Letters

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Citation

Spielberg, Andrew, Amini, Alexander, Chin, Lillian, Matusik, Wojciech and Rus, Daniela. 2021. "Co-Learning of Task and Sensor Placement for Soft Robotics." IEEE Robotics and Automation Letters, 6 (2).

Version: Final published version