Home > Archive>Volume 13, Issue 3, 2017 >233-236. DOI:10.1007/s11801-017-6199-2
PDF HTML XML Export Cite reminder
A 3D video visual comfort evaluation method on the consistency of accommodation and convergence
CSTR:
[cstr]
Author:
Affiliation:

College of Communication Engineering, Jilin University, Changchun 130012, China

  • Article
    • | |
  • Metrics
    • |
  • Reference [19]
    • |
  • Related [20]
    • | | |
  • Comments
    Abstract:

    With the development of three-dimensional (3D) technology, visual fatigue problems in 3D video have got more attention. In this paper, we combine the human vision characteristics and depth perception theory, and propose a 3D video visual comfort evaluation method on the consistency of accommodation and convergence, which evaluates the visual comfort from the quantitative perspective under different horizontal disparities and viewing distances. The experimental results show that the proposed evaluation method exhibits good consistency with the subjective assessment results. This work has been supported by the National Natural Science Foundation of China (No.61271315). E-mail:kanbc15@mails.jlu.edu.cn

    Reference
    [1] W. J. Tam, F. Speranza, S Yano, K. Shimono and H. Ono, IEEE Transactions on Broadcasting 57, 335 (2011).
    [2] D. M. Hoffman, A. R. Girshick, K. Akeley and M. S. Banks, Journal of Vision 8, 1 (2008).
    [3] M. T. M. Lambooij, W. A. Ijsselsteijn and I. Heynderickx, Journal of Imaging Science & Technology 53, 30201-1 (2009).
    [4] Jun-feng Li, Zhi-xiang Zhang and Jun-min Shen, Journal of Optoelectronics.Laser 27, 1101 (2016). (in Chinese)
    [5] Xiu-hong Jiang, Shi-gang Wang, Xiao-Lin Zhao, Mei-hong Hang and Xiao-yan Zhao, Journal of Optoelectronics.Laser 26, 1000 (2015). (in Chinese)
    [6] M. Emoto, T. Niida and F. Okano, Journal of Display Technology 1, 328 (2005).
    [7] T. Shibata, J. Kim, D. M. Hoffman and M. S. Banks, Journal of Vision 11, 11 (2011).
    [8] T. Bando, A. Iijima and S. Yano, Displays 33, 76 (2012).
    [9] S. Yano, M. Emoto and T. Mitsuhashi, Displays 25, 141 (2004).
    [10] D. M. Hoffman, A. R. Girshick, K. Akeley and M. S. Banks, Journal of Vision 8, 33.1 (2008).
    [11] M. Lambooij, M. Fortuin, W. A. Ijsselsteijn, B. J. Evans and I. Heynderickx, IEEE Transactions on Circuits & Systems 21, 1913 (2011).
    [12] D. Kim, H. Lee, S. K. Kim and K. Sohn, Optical Engineering 54, 053107 (2015).
    [13] ITU-R BT.1438, Subjective Assessment of Stereoscopic Television Pictures.
    [14] http://www.adobe.com/support/downloads/product.jsp?platform=Windows&product=13.
    [15] D. R. Ankrum, World Wide Web Consortium 160, 136 (1999).
    [16] D. Kim and K. Sohn, IEEE Transactions on Circuits & Systems for Video Technology 21, 231 (2011).
    [17] M. Lambooij, W. A. Ijsselsteijn and I. Heynderickx, Displays 32, 209 (2011).
    [18] H. Sohn, J. J. Yong, S. I. Lee and M. R. Yong, IEEE Transactions on Broadcasting 59, 28 (2013).
    [19] Guan-jun Wang, Zhi-yong Wu, Hai-jiao Yun and Ming Cui, Optoelectronics Letters 12, 152 (2016).
    Cited by
Get Citation

KAN Bo-chao, ZHAO Yan, andWANG Shi-gang. A 3D video visual comfort evaluation method on the consistency of accommodation and convergence[J]. Optoelectronics Letters,2017,13(3):233-236

Copy
Share
Article Metrics
Article has an altmetric score of 7
Article has an altmetric score of 7
  • Abstract:3883
  • PDF: 0
  • HTML: 0
  • Cited by: 0
History
  • Received:September 14,2016
  • Revised:March 02,2017
  • Online: September 29,2017
Article QR Code
Phone:86-22-60214471
URL:http://www.oelett.com E-mail:oel@263.net
Supported by:Beijing E-Tiller Technology Development Co., Ltd.
® 2025 All Rights Reserved