Bio-mimetic Behaviour of IPMC Artificial Muscle Using EMG Signal

机译：EMG信号对IPMC人工肌肉的仿生行为

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Assistive devices such as prosthetic and orthotic devices as well as micro robotic arm can perform similar operation of a human arm when these are actuated by muscle power. The generated force is transferred through an electro-mechanical system. Most of electro mechanical devices are heavy and are not compatible with muscular system. However, an ionic polymer metal composite (IPMC) has tremendous potential as an artificial muscle and is driven by a low voltage range between -3 to +3 V. In this paper, bio-mimetic actuation of IPMC is studied. The electric voltage is detected by electromyographic (EMG) signal through human muscle and is transferred to IPMC. It is observed that an IPMC shows similar behaviour and controls of a human fore arm.

机译：辅助设备（例如假肢和矫形设备）以及微型机械臂在由肌肉力量致动时，可以对人类的手臂执行类似的操作。产生的力通过机电系统传递。大多数机电设备很重，并且与肌肉系统不兼容。然而，离子聚合物金属复合材料（IPMC）作为人造肌肉具有巨大的潜力，并受-3至+3 V的低电压范围的驱动。在本文中，对IPMC的仿生驱动进行了研究。电压通过人体肌肉的肌电图（EMG）信号进行检测，并传输到IPMC。可以观察到，IPMC显示出类似的行为和对人类前臂的控制。

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《2nd International Conference on Advances in Recent Technologies in Communication and Computing 》|2010年|P.186-190|共5页
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Jain R.K.; Datta S.; Majumder S.; Mukherjee S.; Sadhu D.; Samanta S.; Banerjee K.;
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IPMC; actuator and EMG; artificial muscle; bio-mimetic;

机译：IPMC;促动器和肌电图;人造肌肉;仿生动物;

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专利

1. Design and control of an IPMC artificial muscle finger for micro gripper using EMG signal [J] . R. K. Jain, S. Datta, S. Majumder Mechatronics: The Science of Intelligent Machines . 2013 ,第3期

机译：使用EMG信号的微抓爪IPMC人工肌肉手指的设计和控制
2. Actuation of the Artificial Muscle Based on Ionic Polymer Metal Composite by Electromyography (EMG) Signals [J] . Myoung Joon Lee, Sung Hee Jung, Gyoo Suk Kim, Journal of intelligent material systems and structures . 2007 ,第2期

机译：通过肌电图（EMG）信号驱动基于离子聚合物金属复合材料的人造肌肉
3. Electromyogram (EMG) signal detection, classification of EMG signals and diagnosis of neuropathy muscle disease [J] . Fahreddin Sadikoglu, Cemal Kavalcioglu, Berk Dagman Procedia Computer Science . 2017 ,第1期

机译：肌电图（EMG）信号检测，EMG信号分类和神经病变性肌肉疾病的诊断
4. Bio-mimetic Behaviour of IPMC Artificial Muscle Using EMG Signal [C] . Jain R.K., Datta S., Majumder S., International Conference on Advances in Recent Technologies in Communication and Computing . 2010

机译：IPMC人工肌肉使用EMG信号的生物模拟行为
5. Dynamic muscle force prediction from EMG signals using artificial neural networks. [D] . Liu, Ming Ming. 1997

机译：使用人工神经网络根据EMG信号动态预测肌肉力量。
6. IDENTIFICATION OF TERM AND PRE-TERM LABOR IN RATS USING ARTIFICIAL NEURAL NETWORKS ON UTERINE EMG SIGNALS [O] . Shao Q. SHI, William L. MANER, Lynette B. MACKAY, -1

机译：利用子宫肌电信号人工神经网络识别大鼠的术语和术语
7. Design and Control of an EMG Driven IPMC Based Artificial Muscle Finger [O] . R.K. Jain, S. Datta, S. Majumder 2012

机译：基于EMG驱动IPMC的人工肌手指的设计与控制
8. Ionic Polymer-Metal Composites (IPMCs) as Biomimetic Sensors, Actuators and Artificial Muscles: A Review [R] . Shahinpoor, M., Bar-Cohen, Y., Simpson, J. O., 1998

机译：离子聚合物 - 金属复合材料（IpmCs）作为仿生传感器，执行器和人工肌肉：综述

Bio-mimetic Behaviour of IPMC Artificial Muscle Using EMG Signal

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