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Development of an EMG-Controlled Mobile Robot

Stefano Bisi, Luca De Luca, Bikash Shrestha, Zhijun Yang, Vaibhav Gandhi

Year
2018
Citations
38
Access
Open access

Abstract

This paper presents the development of a Robot Operating System (ROS)-based mobile robot control using electromyography (EMG) signals. The proposed robot’s structure is specifically designed to provide modularity and is controlled by a Raspberry Pi 3 running on top of an ROS application and a Teensy microcontroller. The EMG muscle commands are sent to the robot with hand gestures that are captured using a Thalmic Myo Armband and recognized using a k-Nearest Neighbour (k-NN) classifier. The robot’s performance is evaluated by navigating it through specific paths while solely controlling it through the EMG signals and using the collision avoidance approach. Thus, this paper aims to expand the research on the topic, introducing a more accurate classification system with a wider set of gestures, hoping to come closer to a usable real-life application.

Keywords

USableGestureRobotMobile robotComputer scienceModularity (biology)Artificial intelligenceRobot controlClassifier (UML)Microcontroller

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