Method for Glare Measurement Based on a Digital Camera Image in Interior Lighting

Huijuan Tian; Zhen Hong; Tiantian Hao; Hui Zhang

doi:10.3788/LOP56.022201

[1] Yang G X, Yang X D. Unpleasant glare and evaluation of unpleasant glare[J]. China Illuminating Engineering Journal, 17, 11-15(2006).

[2] 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).

[3] Boyce P R[M]. Human factors in lighting(2003).

[4] Lin Y D, Qiu J J, Liu Y H. Research status and development on discomfort glare[J]. China Illuminating Engineering Journal, 27, 7-13(2016).

[5] Chen C Q, Wang M, Luo S R. Design and optimization of anti-glare LED mining lamp[J]. Laser & Optoelectronics Progress, 53, 042201(2016).

[6] Petherbridge P, Hopkinson R G. Discomfort glare and the lighting of buildings[J]. Lighting Research and Technology, 15, 39-79(1950). http://www.onacademic.com/detail/journal_1000038145186810_f99e.html

[7] Einhorn H D. Discomfort glare: a formula to bridge differences[J]. Lighting Research and Technology, 11, 90-94(1979).

[8] Einhom H D. Unified glare rating (UGR): Merits and application to multiple sources[J]. Lighting Research and Technology, 30, 89-93(1998).

[9] Commission Internationale de Léclairage. Discomfort glare in interior lighting[M]. Vienna: CIE(1995).

[10] Tashiro T, Kawanobe S, Kimura-Minoda T et al. Discomfort glare for white LED light sources with different spatial arrangements[J]. Lighting Research and Technology, 47, 316-337(2015).

[11] Wienold J, Christoffersen J. Evaluation methods and development of a new glare prediction model for daylight environments with the use of CCD cameras[J]. Energy and Buildings, 38, 743-757(2006). http://www.sciencedirect.com/science/article/pii/S0378778806000715

[12] Błaszczak U J. Method forevaluating discomfort glare based on the analysis of a digital image of an illuminated interior[J]. Metrology and Measurement Systems, 20, 623-634(2013).

[13] Iwata T, Tokura M. Position Index for a glare source located below the line of vision[J]. Lighting Research and Technology, 29, 172-178(1997).

[14] Cai H, Chung T. Evaluating discomfort glare from non-uniform electric light sources[J]. Lighting Research and Technology, 45, 267-294(2013).

[15] Yu W J, Guo Z Y, Liao Q L et al. Research on luminance distribution measurement using a digital camera[J]. Journal of China University of Metrology, 25, 273-278(2014).

[16] Yang L B, Xiong X M, Zhang W T et al. A real-time illumination measurement method based on video camera image[J]. Journal of Guilin University of Electronic Technology, 37, 223-227(2017).

[17] Krüger U, Schmidt F. The impact of cooling on CCD-based camera systems in the field of image luminance measuring devices[J]. Metrologia, 46, S252-S259(2009). http://adsabs.harvard.edu/abs/2009Metro..46S.252K

[18] Wu Y, Yang W H, Li M. Fusion algorithm of multispectral and high-resolution panchromatic images[J]. Acta Photonica Sinica, 32, 174-178(2003).

[19] Yang G Y, Wang J. Predication model error analysis: relative error and absolute error[J]. Statistics and Information Tribune, 18, 21-24(2003).

[20] Xiang Y, Ye Q H, Liu J G et al. Retrieve of planetary boundary layer height based on image edge detection[J]. Chinese Journal of Lasers, 43, 0704003(2016).

[21] Mao X Y, Leng X F, Wang B H et al[M]. Introduction to Open CV3 programming, 2-38(2015).

[22] Kykta M, Kykta M. 代永平(译). 高清显示中的伽马校正、亮度和明视度探索[J]. 现代显示, 20, 13-18(2009).

Dai Y P (translation). Gamma, brightness, and luminance considerations for HD displays[J]. Advanced Display, 20, 13-18(2009).