Effectiveness of a Head Movement Interface for Steering a Vehicle in a Virtual Reality Driving Simulation
作者: Yoshiaki Saito , Kazumasa Kawashima , Masahito Hirakawa
DOI: 10.3390/SYM12101645
关键词: Simulation 、 Interface (computing) 、 Virtual reality 、 Computer science 、 Driving simulator 、 Yaw 、 Rotation 、 Optical head-mounted display 、 Steering wheel 、 Usability
摘要: Recently, virtual reality (VR) has become popular for a variety of applications, such as manufacturing and entertainment. In this study, considering that driver’s head moves according to the motion turning steering wheel, we explored effectiveness movement means vehicle in driving simulation. First, analyzed axes are effective control found x (horizontal) direction, yaw rotation, roll rotation potential candidates. Through implementation simulator, which allows participants steer by movement, it was x-axis most reliable reduced VR sickness while guaranteeing better usability realistic motion. Human–machine interaction can conceived symmetrical sense if machine is truly easy humans handle, they get best out it.
mdpi.com
harvard.edu
sci-hub.st 参考文章(22)
Hugo J. Vanhegan, Silvia Sussmann, Virtual Reality and the Tourism Product Substitution or Complement european conference on information systems. pp. 1077- 1083 ,(2000)
Anthony Lewis Brooks, Anthony Lewis Brooks, Cristina Gheorghe, Paula Epure, Eva Petersson, Thomas Nissen, Steven S. M. Nielsen, Laurentiu-Octavian Toader, Daniel Juul Rosengreen Christensen, Alexandru Nicolae, Effect of the Oculus Rift head mounted display on postural stability International Journal on Disability and Human Development. ,vol. 2016, pp. 119- 127 ,(2014)
Nobuhisa Tanaka, Hideyuki Takagi, Virtual reality environment design of managing both presence and virtual reality sickness. Journal of Physiological Anthropology and Applied Human Science. ,vol. 23, pp. 313- 317 ,(2004) , 10.2114/JPA.23.313
R. Deepa, Manju Davy, Hardware Implementation Based On Head Movement Using Accelerometer Sensor International Journal of Applied Science and Engineering Research. ,vol. 3, pp. 17- 21 ,(2014)
Cyriel Diels, Will autonomous vehicles make us sick Contemporary Ergonomics and Human Factors 2014. pp. 301- 307 ,(2014)
Takahiro Wada, Satoru Fujisawa, Shunichi Doi, Analysis of driver's head tilt using a mathematical model of motion sickness International Journal of Industrial Ergonomics. ,vol. 63, pp. 89- 97 ,(2016) , 10.1016/J.ERGON.2016.11.003
Seyyed Meisam Taheri, Kojiro Matsushita, Minoru Sasaki, Virtual Reality Driving Simulation for Measuring Driver Behavior and Characteristics Journal of Transportation Technologies. ,vol. 7, pp. 123- 132 ,(2017) , 10.4236/JTTS.2017.72009
Ken Pfeuffer, Benedikt Mayer, Diako Mardanbegi, Hans Gellersen, Gaze + pinch interaction in virtual reality symposium on spatial user interaction. pp. 99- 108 ,(2017) , 10.1145/3131277.3132180
Li Nian Feng, Zhiguo Xiao, A Fire Drill Training System Based on VR and Kinect Somatosensory Technologies International Journal of Online Engineering (ijoe). ,vol. 14, pp. 163- 176 ,(2018) , 10.3991/IJOE.V14I04.8398
Sarah ‘Atifah Saruchi, Mohd Hatta Mohammed Ariff, Mohd Ibrahim Shapiai, Nurhaffizah Hassan, Nurbaiti Wahid, Noor Jannah Zakaria, Mohd Azizi Abdul Rahman, Hairi Zamzuri, Radial basis function neural network for head roll prediction modelling in a motion sickness study Indonesian Journal of Electrical Engineering and Computer Science. ,vol. 15, pp. 1637- 1644 ,(2019) , 10.11591/IJEECS.V15.I3.PP1637-1644