[1] Suk J Y, Schiler M, Kensek K. Absolute glare factor and relative glare factor based metric: predicting and quantifying levels of daylight glare in office space[J]. Energy and Buildings, 130, 8-19(2016).

[2] Mangkuto R A, Kurnia K A, Azizah D N et al. Determination of discomfort glare criteria for daylit space in Indonesia[J]. Solar Energy, 149, 151-163(2017).

[3] Li Y, Niu S N. The variation of calculation system of threshold increment[J]. China Illuminating Engineering Journal, 30, 53-60, 74(2019).

[4] Lin Y, Fotios S, Wei M et al. Eye movement and pupil size constriction under discomfort glare[J]. Investigative Ophthalmology & Visual Science, 56, 1649-1656(2015).

[5] Zhan Z X, Guo B Y, Fang W N. Lighting glare evaluation method for the driving interface design of high-speed train[J]. Journal of Mechanical Engineering, 52, 170-178(2016).

[6] Lin Y D, Liu Y H, Sun Y J et al. Model predicting discomfort glare caused by LED road lights[J]. Optics Express, 22, 18056-18071(2014).

[7] Huan G K, Weng J. A video image analysis system for tunnel lighting automatic control[J]. International Journal of Applied Mathematics and Statistics, 51, 246-253(2013).

[8] Akashi Y, Muramatsu R, Kanaya S. Unified glare rating (UGR) and subjective appraisal of discomfort glare[J]. Lighting Research and Technology, 28, 199-206(1996).

[9] Chen P L, Liao C H, Li H C et al. A portable inspection system to estimate direct glare of various LED modules[J]. Proceedings of SPIE, 9524, 95241X(2015).

[10] Yang Y, Luo R M, Huang W J. Assessing glare, part 3: glare sources having different colours[J]. Lighting Research & Technology, 50, 596-615(2018).

[11] Yang Y, Luo R M, Ma S N. Assessing glare, part 2: modifying unified glare rating for uniform and non-uniform LED luminaires[J]. Lighting Research & Technology, 49, 727-742(2017).

[12] BrajovicV, KanadeT. A sorting image sensor: an example of massively parallel intensity-to-time processing for low-latency computational sensors[C]∥Proceedings of IEEE International Conference on Robotics and Automation, April 22-28, 1996, Minneapolis, MN, USA. New York: IEEE Press, 1996: 1638- 1643.

[13] Brajovic V, Kanade T. A VLSI sorting image sensor: global massively parallel intensity-to-time processing for low-latency adaptive vision[J]. IEEE Transactions on Robotics and Automation, 15, 67-75(1999).

[14] Feng A Y, Li L, Zhou L et al. Validation and optimization of discomfort glare model for white LED[J]. Acta Optica Sinica, 37, 0733001(2017).

[15] Nayar SK, BranzoiV. Adaptive dynamic range imaging: optical control of pixel exposures over space and time[C]∥Proceedings Ninth IEEE International Conference on Computer Vision, October 13-16, 2003, Nice, France. New York: IEEE Press, 2003: 1168- 1175.

[16] Nayar S K, Branzoi V, Boult T E. Programmable imaging using a digital micromirror array[C]∥Proceedings of the 2004 IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 2004. CVPR 2004, June 27-July 2, 2004, Washington, DC, USA.(2004).

[17] Liu D, Li Y C. Quality assessment of remote sensing images based on deep learning and human visual system[J]. Laser & Optoelectronics Progress, 56, 061101(2019).

[18] Liu Y, Jiang R Q, Yu H J et al. Subjective image quality assessment for large samples[J]. Laser & Optoelectronics Progress, 56, 131103(2019).

[19] Kavadias S, Dierickx B, Scheffer D et al. A logarithmic response CMOS image sensor with on-chip calibration[J]. IEEE Journal of Solid-State Circuits, 35, 1146-1152(2000).

[20] Awuti A. Study on cardiac and physiological characteristics of plateau highway drivers based on driving suitability detection[D]. Urumqi: Xinjiang Agricultural University, 9-15(2015).

[21] Tian H J, Hong Z, Hao T T et al. Method for glare measurement based on a digital camera image in interior lighting[J]. Laser & Optoelectronics Progress, 56, 022201(2019).

[22] Zhang C Y. Visual safety study of highway landscape planning and design in moving state: taking Pintan island road as an example[D]. Fuzhou: Fujian Agriculture and Forestry University, 11-19(2017).

[23] van den Wymelenberg K, Inanici M. Evaluating a new suite of luminance-based design metrics for predicting human visual comfort in offices with daylight[J]. LEUKOS, 12, 113-138(2016).

[24] Huang K, Weng J. Contrast threshold research of small target visibility in road or tunnel lighting environment[J]. Biotechnology-An India Journal, 10, 14269-14274(2014).

[25] Shi C Y, Lin Y D. LED ring array design for uniform illumination imaging in machine vision[J]. Acta Optica Sinica, 40, 2011003(2020).