离散事件物理人机交互中的非自愿稳定化

Involuntary Stabilization in Discrete-Event Physical Human–Robot Interaction

IEEE Transactions on Systems, Man, and Cybernetics: Systems · 2022
被引 7
ABS 3

中文导读

研究了人机物理交互中人类非自愿行为(力复现偏差)对交互稳定性的影响,发现该偏差能稳定远离隐式平衡点的交互,但会破坏近平衡点的稳定性,并通过手、腕、脚三组实验验证。

Abstract

Robots are used by humans not only as tools but also to interactively assist and cooperate with humans, thereby forming physical human–robot interactions. In these interactions, there is a risk that a feedback loop causes unstable force interaction, in which force escalation exposes a human to danger. Previous studies have analyzed the stability of voluntary interaction but have neglected involuntary behavior in the interaction. In contrast to the previous studies, this study considered the involuntary behavior: a human’s force reproduction bias for discrete-event human–robot force interaction. We derived an asymptotic stability condition based on a mathematical bias model and found that the bias asymptotically stabilizes a human’s implicit equilibrium point far from the implicit equilibrium point and destabilizes the point near the point. The bias model, convergence of the interaction toward the implicit equilibrium point, and divergence around the point were consistently verified via behavioral experiments under three kinds of interactions using three different body parts: 1) a hand finger; 2) wrist; and 3) foot. Our results imply that humans implicitly secure a stable and close relationship between themselves and robots with their involuntary behavior.

人机交互机器人学控制理论稳定性分析