时变Lyapunov稳定性裕度的变阻抗行走

Emmanouil Spyrakos-Papastavridis, P. Childs, N. Tsagarakis
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引用次数: 11

摘要

本文介绍了一种基于时变李雅普诺夫稳定裕度(TVLSMs)的仿人机器人在线平衡监测和阻抗参数整定的新方法。它与以前的工作不同,它考虑了tvlsm,其值根据提供给轨迹跟踪控制器的参考实时演变,而不是以前考虑的静态lsm,围绕着使用设定点调节器。结果,导出了系统能量与其压力中心(CoP)之间的分析关系,提供了一种基于闭环系统实际和临界能量值的演变预测机器人平衡行为的方法。对该表达式的适当操作有助于实时调整主动刚度增益,这可以被视为将机器人的能量限制在操作的“安全区域”内的过程。使用柔性人形机器人(COMAN)进行的行走实验表明,除了能够自动实时调整机器人的阻抗水平外,所提出的技术在预测稳定状态方面的准确性也很高。所提出的策略允许大范围关节阻抗值的稳定复制,这对于行走期间的地面相互作用是必不可少的。
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Variable impedance walking using Time-Varying Lyapunov Stability Margins
This paper introduces novel methods for a humanoid robot's online balance monitoring, as well as for the tuning of its impedance parameters, based on Time-Varying Lyapunov Stability Margins (TVLSMs). It distinguishes itself from previous works by considering TVLSMs whose values evolve in real-time, in accordance with the references supplied to a trajectory tracking controller, as opposed to the previously-considered static LSMs that revolve around the use of set-point regulators. As a result, an analytical relationship between the system's energy and its Centre-of-Pressure (CoP) is derived, providing a means of predicting the robot's balancing behaviour based on the evolution of the closed-loop system's actual and critical, energy values. An appropriate manipulation of this expression facilitates a real-time tuning of the active stiffness gains, which may be viewed as a process of constraining the robot's energy to residing within a ‘safe region’ of operation. Walking experiments performed using the COmpliant huMANoid (COMAN), reveal the proposed technique's accuracy in terms of predicting stable states, in addition to its capability of enabling an automated real-time tuning of a robot's impedance levels. The proposed strategy has permitted the stable replication of a wide range of joint impedance values, which is imperative for ground interaction during walking.
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