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An Enhanced Robot Massage System in Smart Homes Using Force Sensing and a Dynamic Movement Primitive

Chunxu Li, Ashraf Fahmy, Shaoxiang Li, Johann Sienz

2020Frontiers in Neurorobotics32 citationsDOIOpen Access PDF

Abstract

With requirements to improve life quality, smart homes, and healthcare have gradually become a future lifestyle. In particular, service robots with human behavioral sensing for private or personal use in the home have attracted a lot of research attention thanks to their advantages in relieving high labor costs and the fatigue of human assistance. In this paper, a novel force-sensing- and robotic learning algorithm-based teaching interface for robot massaging has been proposed. For the teaching purposes, a human operator physically holds the end-effector of the robot to perform the demonstration. At this stage, the end position data are outputted and sent to be segmented via the Finite Difference (FD) method. A Dynamic Movement Primitive (DMP) is utilized to model and generalize the human-like movements. In order to learn from multiple demonstrations, Dynamic Time Warping (DTW) is used for the preprocessing of the data recorded on the robot platform, and a Gaussian Mixture Model (GMM) is employed for the evaluation of DMP to generate multiple patterns after the completion of the teaching process. After that, a Gaussian Mixture Regression (GMR) algorithm is applied to generate a synthesized trajectory to minimize position errors. Then a hybrid position/force controller is integrated to track the desired trajectory in the task space while considering the safety of human-robot interaction. The validation of our proposed method has been performed and proved by conducting massage tasks on a KUKA LBR iiwa robot platform.

Topics & Concepts

Computer scienceRobotArtificial intelligenceTrajectoryMixture modelDynamic time warpingComputer visionController (irrigation)SimulationAstronomyBiologyAgronomyPhysicsRobot Manipulation and LearningContext-Aware Activity Recognition SystemsGaze Tracking and Assistive Technology
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