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- 2017
旋转偏差对立体显示舒适度影响的ERP研究
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Abstract:
影响立体显示舒适度的因素有多种, 其中左右视图的不协调是主要原因之一, 旋转偏差是影响协调性的重要因素之一.本文基于事件相关电位技术, 采用S1~S2实验范式, 研究了旋转偏差对立体显示舒适度的影响.利用左右视图的旋转偏差在大脑皮层会诱发出N270成分, 结合行为数据以及ERP波形进行分析得出, 旋转偏差超过0.72°时, 被试感觉能够察觉到明显的不协调, 随着偏差等级增大, 被试不协调感逐渐增强.行为数据的统计分析结果与ERP信号结果一致.因此立体视图左右图像的旋转偏差应该控制在0.72°以内.
There are lots of factors that affect visual comfort of 3D display and incongruity between two viewpoints is one of the major factors,while rotation distortion is one of the contributing factors of incongruity. Based on event-related-potential(ERP)technology and applying S1―S2 experimental paradigm,the correlation between rotation distortion and visual comfort of stereo display is studied. N270 component will be evoked while there are rotation distortions between two viewpoints. After statistical analysis of behavior data and ERP,it can be concluded that subjects cannot perceive obvious incongruity as the rotation distortions remain within 0.72° and the perception of incongruity or discomfort increases as the level of distortion rises. Statistical analysis of behavior data is highly correlated with ERP data,indicating that ERP can be used to assess the effects of rotation distortion on visual comfort. As a result,the rotation distortions of 3D displays must remain within 0.72°
| [1] | Lambooij M, Fortuin M, Heynderickx I, et al. Visual discomfort and visual fatigue of stereoscopic displays:A review[J]. <i>Journal of Imaging Science and Technology</i>, 2009, 53(3):30201-1-30201-14. |
| [2] | Chen C, Li K, Wu Q, et al. EEG-based detection and evaluation of fatigue caused by watching 3 DTV[J]. <i>Displays</i>, 2013, 34(2):81-88. |
| [3] | Lambooij M, IJsselsteijn W A, Heynderickx I. Visual discomfort of 3D TV:Assessment methods and modeling[J]. <i>Displays</i>, 2011, 32(4):209-218. |
| [4] | Yano S. Experimental stereoscopic high-definition television [J]. <i>Displays</i>, 1991, 12(2):58-64. |
| [5] | Pastoor S, W?pking M. 3-D displays:A review of current technologies[J]. <i>Displays</i>, 1997, 17(2):100-110. |
| [6] | 魏景汉, 罗跃嘉. 事件相关电位原理与技术[M]. 北京:科学出版社, 2010:68-73. |
| [7] | Wei Jinghan, Luo Yuejia. <i>Event-Related Potentials Principle and Technology</i>[M]. Beijing:Science and Technology Press, 2010:68-73(in Chinese). |
| [8] | Eskicioglu A M, Fisher P S. Image quality measures and their performance [J]. <i>IEEE Transactions on Communications</i>, 1995, 43(12):2959-2965. |
| [9] | Kuze J, Ukai K. Subjective evaluation of visual fatigue |
| [10] | Wang G, Bingo J. Three-dimensional object recognition learning alters an early ERP component of N1[J]. <i>Clinical Neurophysiology</i>, 2010, 121(9):1473-1480. |
| [11] | 赵仑. ERPS实验教程[M]. 南京:东南大学出版社, 2010:263-265. |
| [12] | Zhao Lun. <i>ERPs Experiment Course</i>[M]. Nanjing:Southeast University Press, 2010:263-265(in Chinese). |
| [13] | Kort Y A W, Ijsselstenijn W A. Reality check:The role of realism reduction using media technology[J]. <i>Cyberpsychology & Behavior</i>, 2006, 9(2):230-233. |
| [14] | Jackson A F, Bolger D J. The neurophysiological bases of EEG and EEG measurement:A review for the rest of us[J]. <i>Psychophysiology</i>, 2014, 51(11):1061-1071. |
| [15] | 沈丽丽, 侯春萍, 杨嘉琛, 等. 立体压缩图像的客观质量评价方法[J]. 天津大学学报, 2009, 42(12):1083-1088. |
| [16] | Shen Lili, Hou Chunping, Yang Jiachen, et al. Objective measurement for stereo compressed images[J]. <i>Journal of Tianjin University</i>, 2009, 42(12):1083-1088(in Chinese). |
| [17] | caused by motion images[J]. <i>Displays</i>, 2008, 29(2):159-166. |
| [18] | Li H C O, Seo J, Kham K, et al. Measurement of 3D visual fatigue using event-related potential(ERP):3D oddball paradi-gm [C]//3<i>DTV Conference</i>:<i>The True Vision-Capture</i>, <i>Transmission and Display of<i> 3<i>D Video</i>. Istanbul, Turkey, 2008:213-216. |
| [19] | Scholler S, Bosse S, Treder M S, et al. Toward a direct measure of video quality perception using EEG [J]. <i>IEEE Transactions on Image Processing</i>, 2012, 21(5):2619-2629.</i></i> |
