用于高性能力控制的并联耦合致动器:微观-宏观概念

Proceedings 1995 IEEE/RSJ International Conference on Intelligent Robots and Systems. Human Robot Interaction and Cooperative Robots Pub Date : 1995-08-05 DOI:10.1109/IROS.1995.525826

John B. Morrell, J. Salisbury

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引用次数: 31

摘要

目前的力控制能力受到致动器性能的限制。在许多力控制系统中，电刷摩擦和致动器饱和导致极限循环和不稳定。作者提出，具有适当被动特性的执行器为快速、精确的力控制提供了最佳的潜力。提出了一种将两个作动器组合在一起的微宏作动器的概念，提高了力分辨率和带宽。与以往微宏机器人采用串联耦合的方式不同，该系统采用柔性传动并联耦合方式。定义了力控制性能的三个指标，并建立了模型。提出了组合式执行机构的控制律，并对其设计进行了总体分析。最后，给出了一个原型装置的性能测量结果。该系统的力分辨率为0.25%，力控制带宽为60 Hz。

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Parallel coupled actuators for high performance force control: a micro-macro concept

Current force control capabilities are limited by actuator performance. Brush friction and actuator saturation lead to limit cycles and instability in many force control systems. The authors propose that actuators with the proper passive characteristics provide the best potential for fast, accurate force control. The authors report on a new actuator concept which combines two actuators to create a micro-macro actuator which has improved force resolution and bandwidth. Unlike previous micro-macro robots which used actuators coupled in series, the actuators in this system are coupled in parallel using a compliant transmission. Three specifications for force control performance are defined and a model is presented. A control law for the combined actuator is presented and a general analysis of the design is formulated. Finally, measurements of performance in a prototype device are presented. This system has achieved force resolution of 0.25% and force control bandwidth of 60 Hz.

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来源期刊

Proceedings 1995 IEEE/RSJ International Conference on Intelligent Robots and Systems. Human Robot Interaction and Cooperative Robots

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