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Passivity-based control for flux regulation in a variable reluctance finger gripper

机译：基于无源性的可变磁阻式抓手的磁通调节控制

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摘要

A flux regulation method with passivity-based control (PBC) for a variable reluctance (VR) finger gripper is presented. The performance and stability of the proposed control scheme is verified through mathematical derivations and computer simulation. These verifications indicate that the direct-drive VR finger gripper control has robustness despite certain parameters variations and modelling uncertainties. A novel two-finger gripper based on VR driving principle is also introduced. This kind of gripper has certain advantages over the conventional permanent magnet voice coil gripper, the most notable advantages are the ease of construction, high robustness and very low cost. The work described is the first of its kind in carrying out passivity based control for a direct-drive VR actuator. In the study, the flux and torque behaviour of a mutually-coupled VR gripper was investigated, and its state dynamic equations were derived. Then its flux and torque models were constructed. A similar two-finger VR gripper was fabricated and its characteristics were measured. The PBC controller is designed to regulate the flux linking through the magnetic circuit of the VR finger gripper. Computer simulation and hardware implementation were carried out. The two sets of results compare favourably with each other. Both sets of result show that the system is highly robust and has excellent trajectory tracking performance.

机译：提出了一种用于可变磁阻（VR）抓手的具有基于无源控制（PBC）的流量调节方法。通过数学推导和计算机仿真验证了所提出控制方案的性能和稳定性。这些验证表明，尽管存在某些参数变化和建模不确定性，但直接驱动VR手指夹持器控制仍具有鲁棒性。还介绍了一种基于VR驱动原理的新型两指抓爪。这种夹持器相对于传统的永磁音圈夹持器具有某些优点，最显着的优点是易于构造，坚固耐用且成本非常低。所描述的工作是针对直接驱动VR执行器执行基于无源性控制的同类工作中的第一项。在研究中，研究了相互耦合的VR抓爪的磁通和转矩行为，并推导了其状态动力学方程。然后构建其磁通和转矩模型。制造了类似的两指VR抓手，并测量了其特性。 PBC控制器旨在调节通过VR手指夹持器的磁路产生的磁通量。进行了计算机仿真和硬件实现。两组结果彼此比较好。两组结果都表明该系统具有很高的鲁棒性，并且具有出色的轨迹跟踪性能。

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Chan KK; Yang JM; Cheung NC;
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年度 2005
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正文语种 eng
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专利

1. Passivity-based Control for Flux Regulation in a Variable Reluctance Finger Gripper [J] . K.K. Chan, J.M. Yang, N.C. Cheung IEE Proceedings. Part B, Electric Power Applications . 2005,第3期

机译：基于无源性的可变磁阻夹爪流量调节控制
2. A Novel Two-Finger Variable-Reluctance Gripper for High-Speed Grasping of Delicate Objects: An Implementation Case Study [J] . Kenneth K. Chan, Norbert C. Cheung IEEE Transactions on Industrial Electronics . 2005,第6期

机译：新型两指可变磁阻夹持器，用于高速抓取精致物体：一个实施案例研究
3. Characterization of a novel two-finger variable reluctance gripper [J] . Kenneth K. C. Chan, Norbert C. Cheung ISA Transactions . 2005,第2期

机译：新型两指可变磁阻夹持器的特性
4. Magnetic modeling of a mutually-coupled two-finger variable reluctance gripper [C] . Norbert C. Cheung, Kenneth Kin-Chung Chan Annual Conference of the IEEE Industrial Electronics Society . 2002

机译：相互耦合双指可变磁阻夹持器的磁模拟
5. Motion and force control in high-performance variable reluctance finger gripper. [D] . Chan, Kenneth Kin-Chung. 2005

机译：高性能可变磁阻式抓手中的运动和力控制。
6. Effect of passive finger exercises on grip strength and the ability to perform activities of daily living for older people with dementia: a 12-week randomized controlled trial [O] . Bingbing Liu, Xueping Chen, Yang Li, 2018

机译：被动手指运动对老年痴呆症患者握力和日常生活活动能力的影响：一项为期12周的随机对照试验
7. Passivity-based control incorporating trajectory planning for a variable-reluctance finger gripper [O] . Yang JM, Jin X, Wu J, 2004

机译：基于无源性的控制，结合了可变磁阻抓手的轨迹规划

Passivity-based control for flux regulation in a variable reluctance finger gripper

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