Head-synced Drone Control for Reducing Virtual Reality Sickness

Controlling a drone using head-mounted display induces virtual reality (VR) sickness. From previous research, it is known that angular velocity is one of the contributing factors to induce VR sickness, however for drones, linear motion and the interaction between linear and angular motion often occu...

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Published in	Journal of Intelligent & Robotic Systems Vol. 97; no. 3-4; pp. 733 - 744
Main Authors	Watanabe, Kandai, Takahashi, Masaki
Format	Journal Article
Language	English
Published	Dordrecht Springer Science and Business Media LLC 01.03.2020 Springer Netherlands Springer Springer Nature B.V
Subjects	Angular velocity Artificial Intelligence Control Control methods Electrical Engineering Engineering Frequency ranges Helmet mounted displays Illnesses Mechanical Engineering Mechatronics Remote control Robotics Virtual reality Teleoperation Sickness Drone Virtual reality
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Abstract	Controlling a drone using head-mounted display induces virtual reality (VR) sickness. From previous research, it is known that angular velocity is one of the contributing factors to induce VR sickness, however for drones, linear motion and the interaction between linear and angular motion often occur during operation. In this research, we investigate the effect of each conditions experimentally and proposes a method of controlling a drone to reduce VR sickness. We designed a system that does not make user’s head fixed at one point but allows to move the head freely. At the same time, the head orientation and direction are synced with the drone’s attitude to reduce sensory conflict. Two controllers were compared: joystick control and head control. We tested with a real system and conducted experiments on subjects to verify its effect. The proposed controller reduced angular velocity in the frequency range 0.1 to 10 Hz where a vestibular system becomes most sensitive, and it is demonstrated that reducing sensory conflict contributes to the reduction of VR sickness.
AbstractList	Controlling a drone using head-mounted display induces virtual reality (VR) sickness. From previous research, it is known that angular velocity is one of the contributing factors to induce VR sickness, however for drones, linear motion and the interaction between linear and angular motion often occur during operation. In this research, we investigate the effect of each conditions experimentally and proposes a method of controlling a drone to reduce VR sickness. We designed a system that does not make user’s head fixed at one point but allows to move the head freely. At the same time, the head orientation and direction are synced with the drone’s attitude to reduce sensory conflict. Two controllers were compared: joystick control and head control. We tested with a real system and conducted experiments on subjects to verify its effect. The proposed controller reduced angular velocity in the frequency range 0.1 to 10 Hz where a vestibular system becomes most sensitive, and it is demonstrated that reducing sensory conflict contributes to the reduction of VR sickness. Controlling a drone using head-mounted display induces virtual reality (VR) sickness. From previous research, it is known that angular velocity is one of the contributing factors to induce VR sickness, however for drones, linear motion and the interaction between linear and angular motion often occur during operation. In this research, we investigate the effect of each conditions experimentally and proposes a method of controlling a drone to reduce VR sickness. We designed a system that does not make user's head fixed at one point but allows to move the head freely. At the same time, the head orientation and direction are synced with the drone's attitude to reduce sensory conflict. Two controllers were compared: joystick control and head control. We tested with a real system and conducted experiments on subjects to verify its effect. The proposed controller reduced angular velocity in the frequency range 0.1 to 10 Hz where a vestibular system becomes most sensitive, and it is demonstrated that reducing sensory conflict contributes to the reduction of VR sickness. Keywords Virtual reality * Sickness * Teleoperation * Drone
Audience	Academic
Author	Masaki Takahashi Kandai Watanabe
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Snippet	Controlling a drone using head-mounted display induces virtual reality (VR) sickness. From previous research, it is known that angular velocity is one of the...
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SubjectTerms	Angular velocity Artificial Intelligence Control Control methods Electrical Engineering Engineering Frequency ranges Helmet mounted displays Illnesses Mechanical Engineering Mechatronics Remote control Robotics Virtual reality
Title	Head-synced Drone Control for Reducing Virtual Reality Sickness
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