Survey of VR applications in interactive films and games
Received date: 2017-03-15
Online published: 2017-06-30
Virtual reality (VR) is an important technology widely applied in interactive film and video games. Due to its immersive sense, interactivity and conception, virtual
reality has changed the industry of interactive film and video game, and significantly improves the user experience. This paper briefly summarizes the state-of-the-art applications in film and video games industry including short films, documentaries, promos, games, educational applications, medicine, psychological interaction, etc. According to interaction level, applications of VR can divided into panoramic interactions, plot interactions, and complete interaction. The bottlenecks of VR interactive contents and the problems of current VR technology including the bottlenecks of VR films, the problems of current VR games and VR devices and analyzed. Finally, prospects of possible developments of VR in the future are given.
ZHANG Tingting1, TIAN Feng1,2, Lü Wei3, WANG Yihua4, HUANG Chao1 . Survey of VR applications in interactive films and games[J]. Journal of Shanghai University, 2017 , 23(3) : 342 . DOI: 10.12066/j.issn.1007-2861.1935
[1] Lemu H G. Virtual engineering in design and manufacturing [J]. Department of Mechanical and Structural Engineering and Material Technology, 2014, 2(4): 289-294.
[2] Fern´andez R P, Alonso V. Virtual reality in a shipbuilding environment [J]. Advances in Engineering Software, 2015, 81: 30-40.
[3] Lee G A, Yang U. Virtual reality content-based training for spray painting tasks in the shipbuilding industry [J]. ETRI Journal, 2010, 32(5): 695-703.
[4] Qiu S G, Fan X M. Virtual human modeling for interactive assembly and disassembly operation in virtual reality environment [J]. The International Journal of Advanced Manufacturing
Technology, 2013, 69(9): 2355-2372.
[5] Rentzos L, Vourtsis C, Mavrikios D, et al. Using VR for complex product design [C]//International Conference on Virtual, Augmented and Mixed Reality. 2014: 455-464.
[6] Greunke L, Sadagic A. Taking immersive VR leap in training of landing signal officers [J]. IEEE Transactions on Visualization and Computer Graphics, 2016, 22(4): 1482-1491.
[7] Clergeaud D, Guillaume F, Guitton P. 3D collaborative interaction for aerospace industry[C]//2016 IEEE Third VR International Workshop on Collaborative Virtual Environments
(3DCVE). 2016: 13-15.
[8] Hu X Q, Su R, He L. The design and implementation of the 3D educational game based on VR headsets [C]//International Symposium on Educational Technology. 2016: 53-56.
[9] Ma J R, Zhang S J, Li F. Design and implementation of parent-child interaction game based on the somatosensory technology [J]. China Educational Technology, 2012(9): 85-88.
[10] Ling H, Rui L. VR glasses and leap motion trends in education [C]// 2016 11th International Conference on Computer Science & Education (ICCSE). 2016: 917-920.
[11] Le Q T, Pedro A. A social virtual reality based construction safety education system for experiential learning [J]. Journal of Intelligent & Robotic Systems, 2015, 79(3): 1-20.
[12] Chittaro L, Buttussi F. Assessing knowledge retention of an immersive serious game vs. a traditional education method in aviation safety [J]. IEEE Transactions on Visualization and
Computer Graphics, 2015, 21(4): 529-538.
[13] Lange B, Koenig S, McConnell E, et al. Interactive game-based rehabilitation using the Microsoft Kinect [C]//IEEE Virtual Reality. 2012: 171-172.
[14] Schroeder D, Korsakov F. Creating widely accessible spatial interfaces mobile VR for managing persistent pain [J]. IEEE Computer Graphics and Applications, 2013, 33(3): 82-88.
[15] Shin J H. Effects of game-based virtual reality on health-related quality of life in chronic stroke patients: a randomized, controlled study [J]. Computers in Biology and Medicine, 2015, 63(1): 92-98.
[16] Quarles J. Shark punch: a virtual reality game for aquatic rehabilitation [C]//Virtual Reality(VR). 2015: 265-266.
/
| 〈 |
|
〉 |
