EQUILIBRIUM-POINT CONTROL HYPOTHESIS EXAMINED BY MEASURED ARM STIFFNESS DURING MULTIJOINT MOVEMENT

Gomi H; Kawato M

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EQUILIBRIUM-POINT CONTROL HYPOTHESIS EXAMINED BY MEASURED ARM STIFFNESS DURING MULTIJOINT MOVEMENT

机译：多关节运动过程中测得的手臂刚度检验平衡点控制假说

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For the last 20 years, it has been hypothesized that well-coordinated, multijoint movements are executed without complex computation by the brain, with the use of springlike muscle properties and peripheral neural feedback loops. However, it has been technically and conceptually difficult to examine this ''equilibrium-point control'' hypothesis directly in physiological or behavioral experiments. A high-performance manipulandum was developed and used here to measure human arm stiffness, the magnitude of which during multijoint movement is important for this hypothesis. Here, the equilibrium-point trajectory was estimated from the measured stiffness, the actual trajectory, and the generated torque. Its velocity profile differed from that of the actual trajectory. These results argue against the hypothesis that the brain sends as a motor command only an equilibrium-point trajectory similar to the actual trajectory.

机译：在过去的20年中，有一种假设是，利用弹簧状的肌肉特性和周围的神经反馈回路，无需复杂的大脑运算就能执行协调一致的多关节运动。但是，在生理或行为实验中直接检查这种“平衡点控制”假设在技术上和概念上都是困难的。开发了一种高性能Manipulandum，并将其用于测量人的手臂刚度，在这种情况下，多关节运动的幅度对于该假设很重要。在此，根据测得的刚度，实际轨迹和所产生的扭矩来估算平衡点轨迹。它的速度曲线不同于实际轨迹。这些结果与以下假设背道而驰：大脑仅将类似于实际轨迹的平衡点轨迹作为运动命令发送。

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来源
《Science》 |1996年第5258期|p.117-120|共4页
作者
Gomi H; Kawato M;
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作者单位

Gomi H, NIPPON TELEGRAPH & TEL PUBL CORP, BASIC RES LABS, INFORMAT SCI RES LAB, WAKAMIYA 3-1, ATSUGI, KANAGAWA, JAPAN;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类自然科学总论;
关键词
Human elbow joint; Trajectory formation; Voluntary movements; Posture.; Model; Coordination; Maintenance; Cerebellum; Position;

机译：人肘关节;轨迹形成;自愿运动;姿势;模型;协调;维护;小脑;位置;
入库时间 2022-08-18 00:36:44

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1. Multijoint muscle regulation mechanisms examined by measured human arm stiffness and EMG signals. [J] . Osu R, Gomi H Journal of Neurophysiology . 1999,第4期

机译：通过测量人体手臂的僵硬度和EMG信号来检查多关节肌肉调节机制。
2. HUMAN ARM STIFFNESS AND EQUILIBRIUM-POINT TRAJECTORY DURING MULTI-JOINT MOVEMENT [J] . Gomi H., Kawato M. Biological Cybernetics: Communication and Control in Organisms and Automata: = Nachrichtenubertragung, Nachrichtenverarbeitung, Steuerung und Regelung in Organismen und in Automaten . 1997,第3期

机译：多关节运动过程中的人手臂刚度和平衡点轨迹
3. Evaluation of Feedforward and Feedback Contributions to Hand Stiffness and Variability in Multijoint Arm Control [J] . He, X., Du, IEEE transactions on neural systems and rehabilitation engineering . 2013,第4期

机译：评估多关节手臂控制中手的刚度和变异性的前馈和反馈贡献
4. Multijoint arm stiffness during movements following stroke: Implications for robot therapy [C] . Piovesan D., Casadio M., Mussa-Ivaldi F. A., 2011 IEEE International Conference on Rehabilitation Robotics . 2011

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5. Formation and control of trajectory during multijoint arm movements in Duchenne's muscular dystrophy. [D] . Bowen, Roscoe Clint. 2003

机译：杜兴氏肌营养不良症的多关节手臂运动过程中轨迹的形成和控制。
6. Multijoint arm stiffness during movements following stroke: implications for robot therapy [O] . D. Piovesan, M. Casadio, F. A. Mussa-Ivaldi, -1

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7. Multijoint muscle regulation mechanisms examined by measured human arm stiffness and emg signals [O] . Rieko Osu, Hiroaki Gomi 1999

机译：通过测量的人体臂刚度和emg信号检查多关节肌肉调节机制
8. An Experimental Investigation of the H-5 Variable Stiffness Blade Program. Part 4. Harmonic Reduction of Measured Blade-Motion and Control-Force Data [R] . James Kline 1952

机译：H-5变刚度叶片程序的实验研究。第4部分：测量叶片运动和控制力数据的谐波减少

EQUILIBRIUM-POINT CONTROL HYPOTHESIS EXAMINED BY MEASURED ARM STIFFNESS DURING MULTIJOINT MOVEMENT

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