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In order to present the visual resolution effects of different integral imaging systems in three-dimensional (3D) display applications, a method of comparing the resolutions of integral imaging 3D display based on human vision is proposed. The relative resolution parameter is defined by analyzing the relation between the integral imaging 3D system and resolving power of human eyes on the best viewing condition, and its relationship with the visual resolution effect viewed in the integral imaging 3D display system is analyzed. The results indicate that the size of lens array has an important influence on the visual resolution effect in the integral imaging 3D display system. According to the theoretical results of two examples show that the difference in relative resolution parameter between the systems is 1.75 times of that of traditional one. The experimental results are consistent with the theoretical analyses. The method proposed in this paper could have a certain directive significance for 3D display resolution evaluation.
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Keywords:
- three-dimensional display /
- integral imaging /
- resolution /
- human vision
[1] Fan Q J, Li L, Shen C L, Gong H J 2010 Opt. Precis. Eng. 18 183 (in Chinese) [樊琼剑, 李莉, 沈春林, 龚华军 2010 光学精密工程 18 183]
[2] Feng M Y, Shen C L 2008 Inform. Term. Disp. 32 42 (in Chinese) [冯茂岩, 沈春林 2008 信息终端与显示 32 42]
[3] Zheng H D, Yu Y J, Dai C X 2009 Opt. Int. J. Light Electron. Opt. 120 431
[4] Park J H, Hong K, Lee B 2009 Appl. Opt. 48 H77
[5] Kim Y, Choi H, Cho S W, Kim Y, Kim J, Park G, Lee B 2007 Appl. Opt. 46 7149
[6] Piao Y, Kim E S 2009 Appl. Opt. 48 222
[7] Lim Y T, Park J H, Kwon K C, Kim N 2009 Opt. Express 17 19253
[8] Piao Y 2008 Acta Photon. Sin. 37 2560 (in Chinese) [朴燕 2008 光子学报 37 2560]
[9] Cho M, Daneshpanah M, Moon I, Javidi B 2011 Proc. IEEE 99 556
[10] Lee B, Park J H, Min S W 2006 Digital Holography and Three-Dimensional Display Principles and Applications (New York: Springer) p333
[11] Stern A, Javidi B 2006 Proc. IEEE 94 591
[12] Jang J S, Jin F, Javidi B 2003 Opt. Lett. 28 421
[13] Zhang Y M 2008 Applied Optics (Beijing: Electronic Industry Press) p372 (in Chinese) [张以谟 2008 应用光学 (北京: 电子工业出版社) 第372页]
[14] Yu T 1966 Applied Optics (Beijing: Science Press) p392 (in Chinese) [喻焘 1966 应用光学 (北京: 科学出版社) 第392页]
[15] Ren S G, Li J W, Xie L L 2003 Opto-Electron Eng. 30 53 (in Chinese) [任四刚, 李见为, 谢利利 2003 光电工程 30 53]
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[1] Fan Q J, Li L, Shen C L, Gong H J 2010 Opt. Precis. Eng. 18 183 (in Chinese) [樊琼剑, 李莉, 沈春林, 龚华军 2010 光学精密工程 18 183]
[2] Feng M Y, Shen C L 2008 Inform. Term. Disp. 32 42 (in Chinese) [冯茂岩, 沈春林 2008 信息终端与显示 32 42]
[3] Zheng H D, Yu Y J, Dai C X 2009 Opt. Int. J. Light Electron. Opt. 120 431
[4] Park J H, Hong K, Lee B 2009 Appl. Opt. 48 H77
[5] Kim Y, Choi H, Cho S W, Kim Y, Kim J, Park G, Lee B 2007 Appl. Opt. 46 7149
[6] Piao Y, Kim E S 2009 Appl. Opt. 48 222
[7] Lim Y T, Park J H, Kwon K C, Kim N 2009 Opt. Express 17 19253
[8] Piao Y 2008 Acta Photon. Sin. 37 2560 (in Chinese) [朴燕 2008 光子学报 37 2560]
[9] Cho M, Daneshpanah M, Moon I, Javidi B 2011 Proc. IEEE 99 556
[10] Lee B, Park J H, Min S W 2006 Digital Holography and Three-Dimensional Display Principles and Applications (New York: Springer) p333
[11] Stern A, Javidi B 2006 Proc. IEEE 94 591
[12] Jang J S, Jin F, Javidi B 2003 Opt. Lett. 28 421
[13] Zhang Y M 2008 Applied Optics (Beijing: Electronic Industry Press) p372 (in Chinese) [张以谟 2008 应用光学 (北京: 电子工业出版社) 第372页]
[14] Yu T 1966 Applied Optics (Beijing: Science Press) p392 (in Chinese) [喻焘 1966 应用光学 (北京: 科学出版社) 第392页]
[15] Ren S G, Li J W, Xie L L 2003 Opto-Electron Eng. 30 53 (in Chinese) [任四刚, 李见为, 谢利利 2003 光电工程 30 53]
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