[1] NAISH, J. M. Properties and Design of the Head-up Display (HUD). DOUG-LAS AIRCRAFT CO LONG BEACH CA, 1970.
[2] Simple Flying ,https://simpleflying.com/boeing-787-head-up-display/
[3] WEIHRAUCH, M.; MELOENY, G. G.; GOESCH, T. C. The first head up dis-play introduced by general motors. SAE Technical Paper, 1989.
[4] WANNINGER, Mario. LED light sources for head-up displays. In: Photonics in the Automobile. International Society for Optics and Photonics, 2005. p. 225-229.
[5] Panason-ic ,https://na.panasonic.com/us/news/panasonic-automotive-brings-expansive-artificial-intelligence-enhanced-situational-awareness-driver
[6] PULLUKAT, Joseph; TANAKA, Shinichi; JIANG, Jiahao. P‐25: Effects of Image Distance on Cognitive Tunneling with Augmented Reality Head Up Dis-plays. In: SID Symposium Digest of Technical Papers. 2020. p. 1427-1430.
[7] REDMOND, Ian R. 18‐1: Invited Paper: Holographic Optical Elements for Au-tomotive Windshield Displays. In: SID Symposium Digest of Technical Papers. 2020. p. 246-249.
[8] WAGNER, Daniel, et al. 18‐3: Impact Study of Windshield Geometry on the Subjective Customer Perception for Augmented Reality Head‐up Displays (AR HUD). In: SID Symposium Digest of Technical Papers. 2020. p. 254-257.
[9] Mercedes-Benz, https://www.caradvice.com.au/864170/mercedes-benz-unveils-augmented-reality-heads-up-display/
[10] SHI, Bingchuan, et al. 34.3: A Dual Depth Head Up Display System for Vehicle. In: SID Symposium Digest of Technical Papers. 2018. p. 371-374.
[11] QIN, Zong, et al. Dual-focal-plane augmented reality head-up display using a single picture generation unit and a single freeform mirror. Applied optics, 2019, 58.20: 5366-5374.
[12] MU, Cheng-Ta; LIN, Wei-Ting; CHEN, Cheng-Huan. Zoomable head-up display with the integration of holographic and geometrical imaging. Optics Express, 2020, 28.24: 35716-35723.
[13] SHIH, Chun-Yao; TSENG, Cheng-Chieh. Dual-eyebox Head-up Display. In: 2018 3rd IEEE International Conference on Intelligent Transportation Engineer-ing (ICITE). IEEE, 2018. p. 105-109.
[14] LEE, Jin-Ho, et al. Optical design of automotive augmented reality 3D head-up display with light-field rendering. In: Advances in Display Technologies XI. In-ternational Society for Optics and Photonics, 2021. p. 117080I.
[15] LV, Zhenlv; LIU, Juan; XU, Liangfa. A multi-plane augmented reality head-up display system based on volume holographic optical elements with large area. arXiv preprint arXiv:2104.14315, 2021.
[16] R.A.Serway, J.W. Jewett “Physics for Scientists and Engineers”, 2004.
[17] E. Hecht, “Optics,” 3rded., Chap. 5 in Geometrical Optics, p.159, Addison Wes-ley, 2002.
[18] V.N. Mahajan,“Optical imaging and aberration PART I ray geometrical optics”,
SPIE Press, 1998
[19] F.L. Pedrotti, S.J., L.M. Pedrotti, L. S. Pedrotti, "Introduction to Optics," 3thed., Pearson International Edition, 2002.
[20] E.L.Dereniak, T.D.Dereniak, “Geometrical and Trigonometric Optics”, p.164-p.186 ,2008.
[21] M.Kawakita, H.Sasaki, J.Arai, F.Okano, K.Suehiro, Y.Haino, M.Yoshimura,and M.Sato, "Geometric analysis of spatial distortion in projection-type integral im-aging," Optics Letters, Vol.33, p.684-p.686, 2008.
[22] HWANG, Hone-Ene, CHANG, Hsuan T.; LIE, Wen-Nung. Multiple-image en-cryption and multiplexing using a modified Gerchberg-Saxton algorithm and phase modulation in Fresnel-transform domain. Optics letters, 2009, 34.24: 3917-3919.
[23] Chen, Chien-Yu, et al. "3-D modified Gerchberg–Saxton algorithm developed for panoramic computer-generated phase-only holographic display." JOSA B 34.5 (2017): B42-B48.
[24] BENQ, https://www.benq.com/en-us/knowledge-center/knowledge/the-myth-of-high-contrast.html
[25] Edmund Optics, https://www.edmundoptics.co.uk/knowledge-center/application-notes/imaging/contrast/
[26] Edmund Optics, https://www.edmundoptics.com/knowledge-center/application-notes/imaging/distortion/
[27] J. C. Dainty, A. E. Ennos, M. Francon, and J. W. Goodman, T. S. McKechnie, and G. Parry, Laser Speckle and Related Phenomena, Springer, Berlin and Hei-delberg, pp. 9-76, 1975.
[28] J. C. Dainty, A. E. Ennos, M. Francon, and J. W. Goodman, T. S. McKechnie, and G. Parry, Laser Speckle and Related Phenomena, Springer, Berlin and Hei-delberg, pp. 9-76, 1975.
[29] F. Riechert, G. Bastian, and U. Lemmer, “Laser speckle reduction via colloi-dal-dispersion-filled projection screens,” Appl. Opt., Vol. 48, No. 19, pp. 3742-3749, 2009.