A Walking-in-Place Method for Virtual Reality Using Position and Orientation Tracking

People are interested in traveling in an infinite virtual environment, but no standard navigation method exists yet in Virtual Reality (VR). The Walking-In-Place (WIP) technique is a navigation method that simulates movement to enable immersive travel with less simulator sickness in VR. However, att...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Switzerland), 2018-08, Vol.18 (9), p.2832
Main Authors: Lee, Juyoung, Ahn, Sang Chul, Hwang, Jae-In
Format: Article
Language:English
Subjects:
Computer simulation
Fitness equipment
gait
head-mounted display
Inertial platforms
International conferences
motion analysis
Personal computers
position and orientation tracking
Recognition
Running
Sensors
Smartphones
Virtual environments
Virtual reality
virtual velocity
Walking
walking-in-place
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Summary:People are interested in traveling in an infinite virtual environment, but no standard navigation method exists yet in Virtual Reality (VR). The Walking-In-Place (WIP) technique is a navigation method that simulates movement to enable immersive travel with less simulator sickness in VR. However, attaching the sensor to the body is troublesome. A previously introduced method that performed WIP using an Inertial Measurement Unit (IMU) helped address this problem. That method does not require placement of additional sensors on the body. That study proved, through evaluation, the acceptable performance of WIP. However, this method has limitations, including a high step-recognition rate when the user does various body motions within the tracking area. Previous works also did not evaluate WIP step recognition accuracy. In this paper, we propose a novel WIP method using position and orientation tracking, which are provided in the most PC-based VR HMDs. Our method also does not require additional sensors on the body and is more stable than the IMU-based method for non-WIP motions. We evaluated our method with nine subjects and found that the WIP step accuracy was 99.32% regardless of head tilt, and the error rate was 0% for squat motion, which is a motion prone to error. We distinguish jog-in-place as "intentional motion" and others as "unintentional motion". This shows that our method correctly recognizes only jog-in-place. We also apply the saw-tooth function to our method in a mathematical way. Natural navigation is possible when the virtual velocity approach is applied to the WIP method. Our method is useful for various applications which requires jogging.
ISSN:1424-8220
1424-8220
DOI:10.3390/s18092832