[1] Zhou Z P, Li Y, Yan Y G et al. Current situation and trend of Micro-LED application in near-eye display[J]. Chinese Journal of Liquid Crystals and Displays, 37, 661-679(2022).

[2] Luo H, Weng J C, Li H F. Waveguide display system based on liquid crystal polarization volume grating[J]. Acta Optica Sinica, 42, 1006002(2022).

[3] Yang L, Jiang S L, Ji X S et al. Preparation of reflective volume holographic grating for plate waveguide display[J]. Laser & Optoelectronics Progress, 59, 0305001(2022).

[4] Lin C J, Woldegiorgis B H, Caesaron D et al. Distance estimation with mixed real and virtual targets in stereoscopic displays[J]. Displays, 36, 41-48(2015).

[5] Kang H, Ko J, Park H et al. Effect of outside view on attentiveness in using see-through type augmented reality device[J]. Displays, 57, 1-6(2019).

[6] Frémont V, Phan M T, Thouvenin I. Adaptive visual assistance system for enhancing the driver awareness of pedestrians[J]. International Journal of Human-Computer Interaction, 36, 856-869(2020).

[7] El Jamiy F, Marsh R. Survey on depth perception in head mounted displays: distance estimation in virtual reality, augmented reality, and mixed reality[J]. IET Image Processing, 13, 707-712(2019).

[8] Gao Q K, Liu J, Duan X H et al. Compact see-through 3D head-mounted display based on wavefront modulation with holographic grating filter[J]. Optics Express, 25, 8412-8424(2017).

[9] Soomro S R, Urey H. Light-efficient augmented reality 3D display using highly transparent retro-reflective screen[J]. Applied Optics, 56, 6108-6113(2017).

[10] Yoneyama T, Murakami E, Oguro Y et al. Holographic head-mounted display with correct accommodation and vergence stimuli[J]. Optical Engineering, 57, 061619(2018).

[11] Su Y F, Cai Z J, Liu Q et al. Projection-type dual-view holographic three-dimensional display and its augmented reality applications[J]. Optics Communications, 428, 216-226(2018).

[12] Liu S X, Li Y, Zhou P C et al. Full-color multi-plane optical see-through head-mounted display for augmented reality applications[J]. Journal of the Society for Information Display, 26, 687-693(2018).

[13] Fan C K, Huang S H, Shen C et al. Analog LCOS SLM devices for AR display applications[J]. Journal of the Society for Information Display, 28, 581-590(2020).

[14] Duan X H, Liu J, Shi X L et al. Full-color see-through near-eye holographic display with 80° field of view and an expanded eye-box[J]. Optics Express, 28, 31316-31329(2020).

[15] Shi J C, Hua J Y, Zhou F B et al. Augmented reality vector light field display with large viewing distance based on pixelated multilevel blazed gratings[J]. Photonics, 8, 337(2021).

[16] Wang C, Shen Z W, Weng Y S et al. Field-of-view expansion of waveguide display system with double-layer volume grating[J]. Acta Optica Sinica, 42, 0723001(2022).

[17] Dong H X, Yu X B, Jin Q et al. Tabletop 3D light-field display with 100°frontal viewing angle based on views-segmented voxels[J]. Chinese Journal of Lasers, 49, 0409001(2022).

[18] Miletti T, Truant N, Gurabardhi E et al. HMD quality evaluation of projected image: hardware assessment and software evaluation for distortions correction[J]. Proceedings of SPIE, 10676, 106760C(2018).

[19] Paelke V, Röcker C, Bulk J. A test platform for the evaluation of augmented reality head mounted displays in industrial applications[M]. Karwowski W, Trzcielinski S, Mrugalska B, et al. Advances in manufacturing, production management and process control. Advances in intelligent systems and computing, 793, 25-35(2018).

[20] Zhang H, Liu Y L, Chen L L et al. A virtual image viewing distance measurement system and virtual image viewing distance determination method[P].

[21] Smith W J[M]. Modern optical engineering: the design of optical systems(2008).

[22] ISO[S]. Photography-electronic still picture imaging-resolution and spatial frequency responses: ISO 12233: 2017(2017).

[23] Williams D, Wueller D, Matherson K et al. A pilot study of digital camera resolution metrology protocols proposed under ISO 12233, edition 2[J]. Proceedings of SPIE, 6808, 680804(2008).

[24] Li K, Lake A. 31-3: eyebox evaluation in AR/VR near-eye display testing[J]. SID Symposium Digest of Technical Papers, 50, 434-437(2019).

[25] Hu R, Tian F X, Lin Q Q et al. Multilayer holographic planar waveguide display system[J]. Laser & Optoelectronics Progress, 59, 1209001(2022).