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Intuitive Virtual Reality based Control of a Real-world Mobile Manipulator

Dinh Tung Le, Sheila Sutjipto, Yujun Lai, Gavin Paul

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Abstract

This paper presents an integration of Virtual Reality (VR) interfaces with the control system of a realworld mobile manipulator, ultimately facilitating a natural and intuitive method for human-robot interaction. VR's ability to track movements in 3D space and translate performed motions provide an intuitive platform for users to explore and interact with the virtual environment. Coupled with intuitive controls, such as grabbing and pointing, the VR platform provides a compelling advantage that can be used to solve limitations of traditional remote robot teleoperation methods. This paper summarises the system implemented, which includes a simulation of the robot in Unity3d, as well as analyses critical results of accuracy and performance, from experiments with users of various experience levels. The method used for measuring accuracy with a simulated robot presented a utilitarian validation for contrasting the difference between 2D and VR 3D interfaces. Users' performance and experience under various levels of control latency, which is a crucial factor in remote online robot control, were also measured.

Topics & Concepts

TeleoperationVirtual realityComputer scienceHuman–computer interactionRobotMobile robotMobile manipulatorTeleroboticsSimulationArtificial intelligenceTeleoperation and Haptic SystemsRobotic Path Planning AlgorithmsRobotics and Automated Systems
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