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Learning Dynamic Patient-Robot Task Assignment and Scheduling for A Robotic Rehabilitation Gym

Bikranta Adhikari, Shivanjali Ranashing, Benjamin A. Miller, Domen Novak, Chao Jiang

发表年份
2022
引用次数
4

摘要

A robotic rehabilitation gym is a setup that allows multiple patients to exercise together using multiple robots. The effectiveness of training in such a group setting could be increased by dynamically assigning patients to specific robots. In this simulation study, we develop an automated system that dynamically makes patient-robot assignments based on measured patient performance to achieve optimal group rehabilitation outcome. To solve the dynamic assignment problem, we propose an approach that uses a neural network classifier to predict the assignment priority between two patients for a specific robot given their task success rate on that robot. The priority classifier is trained using assignment demonstrations provided by a domain expert. In the absence of real human data from a robotic gym, we develop a robotic gym simulator and create a synthetic dataset for training the classifier. The simulation results show that our approach makes effective assignments that yield comparable patient training outcomes to those obtained by the domain expert.

关键词

RobotComputer scienceClassifier (UML)Artificial intelligenceScheduling (production processes)Machine learningTask (project management)Artificial neural networkRehabilitationHuman–computer interaction

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