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A Comparison of Remote Robot Teleoperation Interfaces for General Object Manipulation

David Kent, Carl Saldanha, Sonia Chernova

Year
2017
Citations
61
Access
Open access

Abstract

Robust remote teleoperation of high-DOF manipulators is of critical importance across a wide range of robotics applications. Contemporary robot manipulation interfaces primarily utilize a free-positioning pose specification approach to independently control each axis of translation and orientation in free space. In this work, we present two novel interfaces, constrained positioning and point-and-click, which incorporate scene information, including points-of-interest and local surface geometry, into the grasp specification process. We also present results of a user study evaluation comparing the effects of increased use of scene information in grasp pose specification algorithms for general object manipulation. The results of our study show that constrained positioning and point-and-click significantly outperform the widely used free positioning approach by significantly reducing the number of grasping errors and the number of user interactions required to specify poses. Furthermore, the point-and-click interface significantly increased the number of tasks users were able to complete.

Keywords

GRASPTeleoperationComputer scienceObject (grammar)Computer visionOrientation (vector space)Human–computer interactionRoboticsRobotArtificial intelligence

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