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首页> 外文会议>ASME annual dynamic systems and control conference >HAPTIC CONTROL IN PHYSICAL HUMAN-ROBOT INTERACTION BASED ON SUPPORT VECTOR MACHINE CLASSIFICATION OF MUSCLE ACTIVITY: A PRELIMINARY STUDY
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HAPTIC CONTROL IN PHYSICAL HUMAN-ROBOT INTERACTION BASED ON SUPPORT VECTOR MACHINE CLASSIFICATION OF MUSCLE ACTIVITY: A PRELIMINARY STUDY

机译:基于肌肉运动的支持向量机分类的人机交互中的触觉控制

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This study aims to develop methods to increase information available to a haptic device about a human operator during physical human-robot interaction. Physical contact between a robot and human operator establishes a coupled system with stability and performance characteristics partly dependent on interaction port impedance behavior. Operator impedance is estimated in this research based on changes in arm muscle activity, recorded through electromyographic (EMG) signals. A switching impedance controller employing a Support Vector Machine (SVM) classifier for operator state estimation is used in an interaction system with a one degree-of-freedom haptic device. Results from performance (e.g. speed, accuracy) trials investigating a stochastic approach to position control are presented in comparison to other standard approaches. This research serves a basis for the exploration of advanced control tools and ultimately developing a novel human-robot interface. Applications for such research include interaction with robot co-workers (e.g. power-assisting devices) in industrial settings.
机译:这项研究的目的是开发一种方法,以增加人与机器人之间的物理交互过程中有关操作员的触觉设备可用信息。机器人与操作员之间的物理接触建立了一个耦合系统,其稳定性和性能特征部分取决于交互端口的阻抗行为。在这项研究中,根据通过肌电图(EMG)信号记录的手臂肌肉活动的变化来估算操作者的阻抗。在具有单自由度触觉设备的交互系统中使用了采用支持向量机(SVM)分类器进行操作员状态估计的开关阻抗控制器。与其他标准方法相比,本文提供了性能(例如速度,准确性)试验研究的结果,该试验研究了一种随机方法来进行位置控制。该研究为探索高级控制工具并最终开发出新颖的人机界面提供了基础。此类研究的应用包括在工业环境中与机器人同事(例如,动力辅助设备)进行交互。

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