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Design and Implementation of a Haptic Measurement Glove to Create Realistic Human-Telerobot Interactions

Evan Capelle, William N. Benson, Zachary Anderson, Jerry B. Weinberg, Jenna L. Gorlewicz

Year
2020
Citations
10

Abstract

Although research indicates that telepresence robots offer a more socially telepresent alternative to conventional forms of remote communication, the lack of touch-based interactions presents challenges for both remote and local users. In order to address these challenges, we have designed and implemented a robotic manipulator emulating a human arm. However, contact interactions like handshakes with a robotic manipulator may feel awkward and unnatural to local users. In this work, we present the design of a wearable haptic measurement glove (HMG) and use it to collect force and inertial data on handshakes in human-human and humanrobot interactions in the interest of developing intelligent shared control algorithms for natural, human-like contact interactions in human-robot interactions.

Keywords

Haptic technologyWired gloveHuman–computer interactionTeleroboticsWearable computerComputer scienceRobotHuman–robot interactionRemote controlSimulation

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