[1] BurdeaG. C.CoiffetP., Virtual Reality Technology (Wiley, 2003).

[2] S. Sharples, S. Cobb, A. Moody, J. R. Wilson. Virtual reality induced symptoms and effects (VRISE): comparison of head mounted display (HMD), desktop and projection display systems. Displays, 2008, 29: 58.

[3] RieckeB. E.Schulte-PelkumJ.BulthoffH. H., “Perceiving simulated ego-motions in virtual reality: comparing large screen displays with HMDs,” Proc. SPIE5666, 344 (2005).

[4] MelzerJ., “Head-mounted displays,” in Digital Avionics Handbook,SpitzerC. R.FerrellU.FerrellT., eds. (CRC Press, 2014), Chap. 16.

[5] G. Kramida. Resolving the vergence-accommodation conflict in head-mounted displays. IEEE Trans. Vis. Comput. Gr., 2016, 22: 1912.

[6] H. Jorke, A. Simon, M. Fritz. Advanced stereo projection using interference filters. J. Soc. Inf. Display, 2009, 17: 407.

[7] McGinityM.ShawJ.KuchelmeisterV.HardjonoA.FaveroD. D., “AVIE: a versatile multi-user stereo 360 interactive VR theatre,” in Proceedings of the 2007 Workshop on Emerging Displays Technologies: Images and Beyond: The Future of Displays and Interacton (ACM, 2007), p. 2.

[8] H. Urey, K. V. Chellappan, E. Erden, P. Surman. State of the art in stereoscopic and autostereoscopic displays. Proc. IEEE, 2011, 99: 540.

[9] W. X. Zhao, Q. H. Wang, A. H. Wang, D. H. Li. Autostereoscopic display based on two-layer lenticular lenses. Opt. Lett., 2010, 35: 4127.

[10] S. M. Jung, H. Kang, B. Y. Lee, I. B. Kang. Numerical simulation of the displayed image on the entire screen of autostereoscopic displays. Opt. Express, 2015, 23: 7842.

[11] K. Choi, H. Kim, B. Lee. Full-color autostereoscopic 3D display system using color-dispersion-compensated synthetic phase holograms. Opt. Express, 2004, 12: 5229.

[12] J. Y. Luo, Q. H. Wang, W. X. Zhao, D. H. Li. Autostereoscopic three-dimensional display based on two parallax barriers. Appl. Opt., 2011, 50: 2911.

[13] L. S. Kong, G. Jin, T. C. Wang, S. Cai, X. Zhong, K. Xu. Parameter design of a parallax barrier based on the color moire patterns in autostereoscopic display. Appl. Opt., 2011, 50: H153.

[14] TanakaK.HayashiJ.InamiM.TachiS., “Twister: an immersive autostereoscopic display,” in Proceedings of IEEE Conference on Virtual Reality (IEEE, 2004), p. 59.

[15] AtchisonD. A.SmithG., Optics of the Human Eye (Elsevier, 2000).

[16] KunitaY.OgawaN.SakumaA.InamiM.MaedaT.TachiS., “Immersive autostereoscopic display for mutual telexistence: TWISTER I (Telexistence Wide-angle Immersive STEReoscope model I),” in Proceedings of IEEE Conference on Virtual Reality (IEEE, 2001), p. 31.

[17] NishimuraH.AbeT.YamamotoH.HayasakiY.NishidaN., “Development of 140-inch autostereoscopic display by use of full-color LED panel,” Proc. SPIE6486, 64861B (2007).

[18] C. H. Chen, Y. P. Huang, S. C. Chuang, C. L. Wu, H. P. D. Shieh, W. Mphepö, C. T. Hsieh, S. C. Hsu. Liquid crystal panel for high efficiency barrier type autostereoscopic three-dimensional displays. Appl. Opt., 2009, 48: 3446.

[19] LuoJ.WangQ.ZhaoW.TaoY.LiD., “Autostereoscopic three dimensional display based on two parallax barriers,” in Proceedings of the 2010 Symposium on Photonics and Optoelectronics (IEEE, 2010), p. 1.