[2] Kress B, Starner T. A review of head-mounted displays (HMD) technologies and applications for consumer electronics[C]. SPIE, 8720, 87200A(2013).
[3] Veron H, Hezel P J, Southard D A. Head-mounted displays for virtual reality[C]. SPIE, 2218, 41-51(1994).
[5] Melzer J E. Overcoming the field-of-view/resolution invariant in head-mounted displays[C]. SPIE, 3362, 284-293(1998).
[6] Tyczka D R, Chatten M J, Chatten J B et al. Development of a dichoptic foveal/peripheral head-mounted display with partial binocular overlap[C]. SPIE, 8041, 80410F(2011).
[7] Arthur K W. Effects of field of view on performance with head-mounted displays[D]. Chapel Hill: University of North Carolina at Chapel Hill(2000).
[8] Hoppe M, Melzer J. Optical tiling for wide field-of-view head-mounted displays[C]. SPIE, 3379, 146-153(1999).
[11] Gutin M, Gutin O. Automated design and fabrication of ocular optics[C]. SPIE, 7060, 70600H(2008).
[12] Lu H P, Liu W Q, Kang Y S et al. Design of compact optical system in panoramic three-dimensional head mounted display[J]. Acta Optica Sinica, 32, 0522002(2012).
[13] Xu M, Wang Y Q, Wang C T et al. Research on dual-mode compound eye imaging system[J]. Laser & Optoelectronics Progress, 54, 091102(2017).
[14] Wang S L, Ming H, Wang A T et al. Three-dimensional display based on human visual perception[J]. Chinese Journal of Lasers, 41, 0209007(2014).