首页 /研究 /Echo State Network for Soft Actuator Control
LOCOMOTION

Echo State Network for Soft Actuator Control

Cedric Caremel, Matthew Ishige, Tung D. Ta, Yoshihiro Kawahara

发表年份
2022
引用次数
7

摘要

Conventional model theories are not suitable to control soft-bodied robots as deformable materials present rapidly changing behaviors. Neuromorphic electronics are now entering the field of robotics, demonstrating that a highly integrated device can mimic the fundamental properties of a sensory synaptic system, including learning and proprioception. This research work focuses on the physical implementation of a reservoir computing-based network to actuate a soft-bodied robot. More specifically, modeling the hysteresis of a shape memory alloy (SMA) using echo state networks (ESN) in real-world situations represents a novel approach to enable soft machines with task-learning. In this work, we show that not only does our ESN model enable our SMA-based robot with locomotion, but it also discovers a successful strategy to do so. Compared to standard control modeling, established either by theoretical frameworks or from experimental data, here, we gained knowledge a posteriori, guided by the physical interactions between the trained model and the controlled actuator, interactions from which striking patterns emerged, and informed us about what type of locomotion would work best for our robot.

关键词

RobotNeuromorphic engineeringComputer scienceSoft roboticsArtificial intelligenceActuatorSMA*RoboticsField (mathematics)Control engineering

相关论文

查看 LOCOMOTION 分类全部论文