Validating Robotics Simulators on Real-World Impacts | IEEE Journals & Magazine | IEEE Xplore

Validating Robotics Simulators on Real-World Impacts


Abstract:

A realistic simulation environment is an essential tool in every roboticist’s toolkit, with uses ranging from planning and control to training policies with reinforcement...Show More

Abstract:

A realistic simulation environment is an essential tool in every roboticist’s toolkit, with uses ranging from planning and control to training policies with reinforcement learning. Despite the centrality of simulation in modern robotics, little work has been done comparing robotics simulators against real-world data, especially for scenarios involving dynamic motions with high speed impact events. Handling dynamic contact is the computational bottleneck for most simulations, and thus the modeling and algorithmic choices surrounding impacts and friction form the largest distinctions between popular tools. Here, we evaluate the ability of several simulators to reproduce real-world trajectories involving impacts. Using experimental data, we identify system-specific contact parameters of popular simulators Drake, MuJoCo, and Bullet, analyzing the effects of modeling choices around these parameters. For the simple example of a cube tossed onto a table, simulators capture inelastic impacts surprisingly well, though generally fail to reproduce elasticity. For the higher-dimensional case of a Cassie biped landing from a jump, the simulators capture the bulk motion well but the accuracy is limited by model differences between the real robot and the simulators.
Published in: IEEE Robotics and Automation Letters ( Volume: 7, Issue: 3, July 2022)
Page(s): 6471 - 6478
Date of Publication: 11 May 2022

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