Development and Evaluation of a Training System to Reduce Sensory Conflivt Using Augmented Reality
【Supercategory:7. DESCENTE SPORTS SCIENCE Subcategory:7.43 Vol.43】
ABSTRACT
Walking is well known as an aerobic exercise to prevent from the health risk involved in the lifestyle diseases. Indoor training using a treadmill or ergometer can be mentioned as a substitute for outdoor walking. However, a sensory conflict between the vestibular and visual systems may be occurred, which induced symptoms of the motion sickness. In addition, virtual reality (VR) can be used to give subjects a sense of realism in outdoor walking. The aim of this study is to develop a VR system that reduces the sensory conflict, and to evaluate it with use of bio-signal. As a result, we obtained knowledge involve in the VR video clips that could reduce the sensory conflict.
DECENTE SPORTS SCIENCE Vol.43/The DESCENTE AND ISHIMOTO MEMORIAL FOUNDATION FOR THE PROMOTION SPORTS SCIENCE
Walking is well known as an aerobic exercise to prevent from the health risk involved in the lifestyle diseases. Indoor training using a treadmill or ergometer can be mentioned as a substitute for outdoor walking. However, a sensory conflict between the vestibular and visual systems may be occurred, which induced symptoms of the motion sickness. In addition, virtual reality (VR) can be used to give subjects a sense of realism in outdoor walking. The aim of this study is to develop a VR system that reduces the sensory conflict, and to evaluate it with use of bio-signal. As a result, we obtained knowledge involve in the VR video clips that could reduce the sensory conflict.
DECENTE SPORTS SCIENCE Vol.43/The DESCENTE AND ISHIMOTO MEMORIAL FOUNDATION FOR THE PROMOTION SPORTS SCIENCE
Researcher | Hiroki Takada*1, Masaru Miyao*2, Tomoki Shiozawa*3, Masumi Takada*4, Kikuo Ito*5 |
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University or institution | *1 University of Fukui, *2 Nagoya Industrial Science Research Institute, *3 Aoyama Gakuin University, *4 Neuro Sky Co. Ltd. |
Keywords
3D images, AR, VR sickness, visually induced motion sickness, Biomedical effects