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Minimizing torque requirements in robotic manipulation through elastic elements optimization in a physics engine.

Authors :
Marchal, Maxime
Marzougui, Dries
Furnémont, Raphaël
Verstraten, Tom
wyffels, Francis
Source :
International Journal of Advanced Robotic Systems; Jan/Feb2024, Vol. 21 Issue 1, p1-14, 14p
Publication Year :
2024

Abstract

The increasing number of robots and the rising cost of electricity have spurred research into energy-reducing concepts in robotics. One such concept, elastic actuation, introduces compliant elements such as springs into the robot structure. This article presents a comparative analysis between two types of elastic actuation, namely, monoarticular parallel elastic actuation and biarticular parallel elastic actuation, and demonstrates an end-to-end pipeline for their optimization. Starting from the real-world system identification of an RRR robotic arm, we calibrate a simulation model in a general-purpose physics engine and employ in silico evolutionary optimization to co-optimize spring configurations and trajectories for a pick-and-place task. Finally, we successfully transfer the in silico optimized elastic elements and trajectory to the real-world prototype. Our results substantiate the ability of elastic actuation to reduce the actuators' torque requirements heavily. In contrast to previous work, we highlight the superior performance of the biarticular variant over the monoarticular configuration. Furthermore, we show that a combination of both proves most effective. This work provides valuable insights into the torque-reducing use of elastic actuation and demonstrates an actuator-invariant in silico optimization methodology capable of bridging the sim2real gap. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
17298806
Volume :
21
Issue :
1
Database :
Complementary Index
Journal :
International Journal of Advanced Robotic Systems
Publication Type :
Academic Journal
Accession number :
175790972
Full Text :
https://doi.org/10.1177/17298806241228371