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Human Teleoperation - A Haptically Enabled Mixed Reality System for Teleultrasound

David Black, Yas Oloumi Yazdi, Amir Hossein Hadi Hosseinabadi, Septimiu E. Salcudean

Year
2021
Citations
3
Access
Open access

Abstract

Current teleguidance methods include verbal guidance and robotic teleoperation, which present tradeoffs between precision and latency versus flexibility and cost. We present a novel concept of “human teleoperation” which bridges the gap between these two methods. A prototype teleultrasound system was implemented which shows the concept’s efficacy. An expert remotely “teloperates” a person (the follower) wearing a mixed reality headset by controlling a virtual ultrasound probe projected into the person’s scene. The follower matches the pose and force of the virtual device with a real probe. The pose, force, video, ultrasound images, and 3-dimensional mesh of the scene are fed back to the expert. In this control framework, the input and the actuation are carried out by people, but with near robot-like latency and precision. This allows teleguidance that is more precise and fast than verbal guidance, yet more flexible and inexpensive than robotic teleoperation. The system was subjected to tests that show its effectiveness, including mean teleoperation latencies of 0.27 seconds and errors of 7 mm and 6◦ in pose tracking. The system was also tested with an expert ultrasonographer and four patients and was found to improve the precision and speed of two teleultrasound procedures.

Keywords

TeleoperationHeadsetComputer scienceVirtual realityRobotComputer visionArtificial intelligenceLatency (audio)Human–computer interactionFlexibility (engineering)

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