虚拟现实电影中穿越事件对观众感知的影响

doi:10.12066/j.issn.1007-2861.2046

上海大学学报(自然科学版) ›› 2018, Vol. 24 ›› Issue (4): 535-544.doi: 10.12066/j.issn.1007-2861.2046

虚拟现实电影中穿越事件对观众感知的影响

田丰¹^,²(), 戴帅凡¹, 董凤龙¹, 张芷依¹, 褚灵伟³

1. 上海大学上海电影学院, 上海 200072
2. 上海大学上海电影特效工程技术研究中心, 上海 200072
3. 上海文广互动电视有限公司, 上海 200072

收稿日期:2018-04-04 出版日期:2018-08-31 发布日期:2018-08-31
通讯作者: 田丰 E-mail:ouman888@126.com
基金资助:
上海市软件和集成电路产业发展专项资金资助项目(170516);上海大学电影学高峰学科和上海电影特效工程技术研究中心资助项目(16dz2251300)

Effect of crossing event in VR on perception of the audience

TIAN Feng¹^,²(), DAI Shuaifan¹, DONG Fenglong¹, ZHANG Zhiyi¹, CHU Lingwei³

1. Shanghai Film Academy, Shanghai University, Shanghai 200072, China
2. Shanghai Engineering Research Center of Motion Picture Special Effects, Shanghai University, Shanghai 200072, China
3. Shanghai Interactive Television Co., Ltd., Shanghai 200072, China

Received:2018-04-04 Online:2018-08-31 Published:2018-08-31
Contact: TIAN Feng E-mail:ouman888@126.com

摘要/Abstract

摘要：

虚拟现实(virtual reality, VR)电影中, 穿越事件具有强烈的冲击感知和沉浸表现. 为了探索VR电影创作中的事件布局与运动设计规则, 研制穿越事件感知测量平台, 并通过任务型驱动实验研究观众反应时间与运动方位、运动速度和静止深度的关系, 完成穿越事件对沉浸、舒适和情绪的主观评分, 建立穿越事件感知模型. 实验结果表明: 反应时间标准偏差随着深度的增加而显著增加; 右侧目标丢失率低且主观感受良好; 正上方和正下方的舒适度最低, 紧张程度最高, 且分别是丢失率最低和最高点, 其中最低点的沉浸感最低; 低速($\le $20 m/s)时, 静止在中部(14 m)的目标往往更快被注意, 而高速($\ge $20 m/s)时, 中部的目标更容易丢失.

关键词: 立体视觉, 视觉舒适性, 舒适度评估, 舒适度改善

Abstract:

Crossing event in VR movies has strong visual impact on observers and can provide an ideal environment for immersion. To explore the methods of layout and kinematic design in VR movies, task-based perception experiment has been designed to analyze the relationship between response time and start position, velocity, and depth of endpoint. At the same time, the effect of movement on immersion, comfort and emotion can be analyzed through subjective questionnaire, and sense perception regularity of crossing events can be built. The experiment results indicate that standard deviation of response time significantly increases with depth, that the object crossing left has lower loss rate and is more enjoyable, and that the objects crossing right above or below are most annoying and have the lowest and highest loss rate respectively. It is also learned that the one below breaks immersion seriously, and that slow object ($\leq 20$ m/s) gets noticed quickly when it stops at the middle of space behind people, while fast object ($\geq20$ m/s) has higher loss rate when it stops at the same place.

Key words: stereoscopic video, visual comfort, comfort evaluation, comfort improvement

中图分类号:

TP391.41

田丰, 戴帅凡, 董凤龙, 张芷依, 褚灵伟. 虚拟现实电影中穿越事件对观众感知的影响[J]. 上海大学学报(自然科学版), 2018, 24(4): 535-544.

TIAN Feng, DAI Shuaifan, DONG Fenglong, ZHANG Zhiyi, CHU Lingwei. Effect of crossing event in VR on perception of the audience[J]. Journal of Shanghai University（Natural Science Edition）, 2018, 24(4): 535-544.

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参考文献 26

[1]	车琳 . 一种艺术形式的诞生------威尼斯国际电影节与虚拟现实的发展[J]. 当代电影, 2017(11):102-106.
[2]	车琳 . 戛纳国际电影节 70 周年:新媒体语境中的电影节走向[J]. 当代电影, 2017(7):50-54.
[3]	Richardt C, Tompkin J, Halsey J , et al. Video for virtual reality[C] // ACM SIGGRAPH 2017 Courses. 2017: 16.
[4]	Tashman L . Virtual reality in scripted television: why it will ultimately fail[D]. New Haven: Yale University, 2017: 1-33.
[5]	Quilez I . Quill: VR drawing in the production of oculus story studio's new movie[C] // ACM SIGGRAPH Real-time Live. 2016: 26-26.
[6]	李迅 . 从威尼斯国际电影节看 3D 电影到虚拟现实的美学轨迹[J]. 当代电影, 2017(11):106-109.
[7]	Pohl D, Bolkart T, Nickels S , et al. Using astigmatism in wide angle HMDs to improve rendering[C] // IEEE Virtual Reality (VR). 2015: 263-264.
[8]	Kwon O H, Muelder C, Lee K , et al. Spherical layout and rendering methods for immersive graph visualization[C] // IEEE Pacific Visualization Symposium (PacificVis). 2015: 63-67.
[9]	Men L, Bryan-Kinns N, Hassard A S , et al. The impact of transitions on user experience in virtual reality[C] // IEEE Virtual Reality (VR). 2017: 285-286.
[10]	Moghadam K R, Ragan E D . Towards understanding scene transition techniques in immersive 360 movies and cinematic experiences[C] // IEEE Virtual Reality (VR). 2017: 375-376.
[11]	Ragan E D, Scerbo S, Bacim F , et al. Amplified head rotation in virtual reality and the effects on 3D search, training transfer, and spatial orientation[J]. IEEE Transactions on Visualization Computer Graphics, 2017,23(8):1880-1895. pmid: 28113630
[12]	Danieau F, Guillo A, Doré R . Attention guidance for immersive video content in head-mounted displays[C] // IEEE Virtual Reality (VR). 2017: 205-206.
[13]	戴帅凡, 田丰, 黄超 , 等. 3D 电影视觉舒适性研究综述[J]. 上海大学学报(自然科学版), 2017,23(3):364-377.
[14]	Kuze J, Ukai K . Subjective evaluation of visual fatigue caused by motion images[J]. Displays, 2008,29(2):159-166.
[15]	Ukai K, Howarth P A . Visual fatigue caused by viewing stereoscopic motion images: Background, theories, and observations[J]. Displays, 2008,29(2):106-116.
[16]	Jung Y J, Kim D C, Sohn H , et al. Towards a physiology-based measure of visual discomfort: brain activity measurement while viewing stereoscopic images with different, screen disparities[J]. Journal of Display Technology, 2015,11(9):730-743.
[17]	Zou B C, Liu Y, Guo M , et al. EEG-based assessment of stereoscopic 3D visual fatigue caused by vergence-accommodation conflict[J]. Journal of Display Technology, 2017,11(12):1076-1083.
[18]	Du S P, Masia B, Hu S M , et al. A metric of visual comfort for stereoscopic motion[J]. ACM Transactions on Graphics, 2013,32(6):222.
[19]	Mu T J, Sun J J, Martin R R , et al. A response time model for abrupt changes in binocular disparity[J]. Visual Computer, 2015,31(5):675-687. doi: 10.1007/s00371-014-0994-6
[20]	Rai Y, Callet P L, Cheung G . Quantifying the relation between perceived interest and visual salience during free viewing using trellis based optimization[C] // IEEE 12th Image, Video, and Multidimensional Signal Processing Workshop (IVMSP). 2016.
[21]	Mucke S, Strang N C, Aydin S , et al. Spatial frequency selectivity of visual suppression during convergence eye movements[J]. Vision Research, 2013,89(2):96-101. doi: 10.1016/j.visres.2013.07.008
[22]	Klinghammer M, SchüTz I, Blohm G , et al. Allocentric information is used for memory-guided reaching in depth: a virtual reality study[J]. Vision Research, 2016,129:13-24. doi: 10.1016/j.visres.2016.10.004 pmid: 27789230
[23]	Quinlivan B, Butler J S, Beiser I , et al. Application of virtual reality head mounted display for investigation of movement: a novel effect of orientation of attention[J]. Journal of Neural Engineering, 2016,13(5):056006. doi: 10.1088/1741-2560/13/5/056006 pmid: 27518212
[24]	Yang J H, Huston J, Day M , et al. Modeling peripheral vision for moving target search and detection[J]. Aviation Space and Environmental Medicine, 2012,83(6):585-593. doi: 10.3357/ASEM.3230.2012
[25]	Hu B, Johnson-Bey I, Sharma M , et al. Head movements during visual exploration of natural images in virtual reality[C] // 51st Annual Conference on Information Sciences and Systems. 2017: 1-6.
[26]	Diaz G, Cooper J, Rothkopf C , et al. Saccades to future ball location reveal memory-based prediction in a virtual-reality interception task[J]. Journal of Vision, 2013,13(1):109-110. doi: 10.1167/13.9.109

虚拟现实电影中穿越事件对观众感知的影响

Effect of crossing event in VR on perception of the audience

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