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LEUKOS
The Journal of the Illuminating Engineering Society
Volume 19, 2023 - Issue 4
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Research Article

Modelling the Probability of Discomfort Due to Glare at All Levels: The Case of Outdoor Lighting

Joffrey Girarda CEREMA/EEL, Angers, FranceView further author information
,
Céline Villab COSYS/PICS-L, Université Gustave Eiffel, Marne-la-Vallée, FranceORCID Iconhttps://orcid.org/0000-0002-1211-5169View further author information
ORCID Icon &
Roland Brémondb COSYS/PICS-L, Université Gustave Eiffel, Marne-la-Vallée, FranceCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3150-7624View further author information
ORCID Icon
Pages 368-388 | Received 21 Jun 2022, Accepted 26 Oct 2022, Published online: 13 Dec 2022

References

  • Adrian W. 1991. Comparison between the CBE and the CIE glare mark formula and earlier discomfort glare descriptions. In Proceedings of the First International Symposium on Glare; Orlando, Florida. 155–164.
  • Bennett C. 1977a. The demographic variables of discomfort glare. Light Des Appl. 7:22–24.
  • Bennett CA. 1977b. Discomfort glare: concentrated sources—parametric study of angularly small sources. J Illum Eng Soc. 7(1):2–15.
  • Bennett CA. 1987. Characterizing discomfort glare from roadway lighting. Transp Res Rec. 1149:8–10.
  • Bennett CA, Lulla AB. 1981. Discomfort glare: range effects. J IES. 74–80.
  • Budak VP, Ilyina I. 2021. Construction of a psychophysical scale of visual comfort of lighting based on a neural network: preparation of the experiment. Light Eng. 29(3):114–122.
  • Bullough J, Brons J, Qi R, Rea M. 2008. Predicting discomfort glare from outdoor lighting installations. Light Res Technol. 40(3):225–242.
  • CEN. 2016. En 13201-2 European standard: road lighting part 2 - performance requirements. Brussels (Belgium): European Committee for Standardization. Technical report.
  • CIE. 1976. Glare and uniformity in road lighting installations. Vienna (Austria): Commission Internationale de l’Éclairage. Technical Report 31.
  • CIE. 1995. Discomfort glare in interior lighting. Vienne (France): Commission Internationale de l’Éclairage. Technical Report 117.
  • de Boer J, Schreuder D. 1967. Glare as a criterion for quality in street lighting. Trans Illum Eng Soc. 32(2):117–135.
  • Donners M, Vissenberg M, Geerdinck L, Van Den Broek-Cools J, Buddemeijer-Lock A. 2015. A psychophysical model of discomfort glare in both outdoor and indoor applications. Proceedings of 28th Session of the CIE; Manchester, UK. 1602–1611.
  • Einhorn H. 1998. Unified glare rating (UGR): merits and application to multiple sources. Light Res Technol. 30(2):89–93.
  • Fechner GT. 1860. Elemente der Psychophysik. Leipzig (Germany): Breitkopf und Härtel.
  • Fotios S. 2001. An error in brightness matching associated with the application of dimming. Trans Illum Eng Soc. 33(4):223–229.
  • Fotios S. 2015a. Opinion: methodology matters. Light Res Technol. 47(2):132.
  • Fotios S. 2015b. Research note: uncertainty in subjective evaluation of discomfort glare. Light Res Technol. 47(3):379–383.
  • Fotios S, Kent M. 2021. Measuring discomfort from glare: recommendations for good practice. Leukos. 17(4):338–358.
  • Gellatly AW, Weintraub DJ. 1990. User reconfigurations of the de Boer rating scale for discomfort glare. UMTRI. Technical Report 90-20.
  • Girard J, Villa C, Brémond R. 2021. Discomfort glare from several sources: a formula for outdoor lighting. Leukos. 17(2):108–124.
  • Guth SK. 1963. A method for the evaluation of discomfort glare. Illum Eng. 58(5):351–364.
  • Guth SK. 1966. Computing visual comfort ratings for a specific interior lighting installation. Illum Eng. 61:634–642.
  • Harrison W. 1947. Glare rating. Illum Eng. 40:525–557.
  • Hirning MB, Isoardi GL, Garcia-Hansen VR. 2017. Prediction of discomfort glare from windows under tropical skies. Building Environ. 113:107–120.
  • Hopkinson R. 1940. Discomfort glare in lighted streets. Trans Illum Eng Soc. 5(1–9):1–32.
  • Howell DC. 2009. Statistical methods for psychology. Belmont, CA: Cengage Learning.
  • Kent MG, Altomonte S, Wilson R, Tregenza PR. 2017. Temporal effects on glare response from daylight. Build Environ. 113:49–64.
  • Kent MG, Fotios S, Altomonte S. 2019. An experimental study on the effect of visual tasks on discomfort due to peripheral glare. Leukos. 15(1):17–28.
  • Lee J, Choi Y, Yang X, Oh G, Kim M, Kim H, Kang J, You H. 2017. The effect of visual attention factors on visual field testing for maintenance of gaze fixation. In Proceedings of the Human Factors and Ergonomics Society Annual Meeting, volume 61; Los Angeles, CA: SAGE Publications. 701–704
  • Lin Y, Fotios S, Wei M, Liu Y, Guo W, Sun Y. 2015. Eye movement and pupil size constriction under discomfort glare. Invest Ophthalmol Vis Sci. 56(3):1649–1656.
  • Lin Y, Liu Y, Sun Y, Zhu X, Lai J, Heynderickx I. 2014. Model predicting discomfort glare caused by LED road lights. Opt Express. 22(15):18056–18071.
  • Luce RD. 1959. On the possible psychophysical laws. Psychol Rev. 66:81–95.
  • Luckiesh M, Guth SK. 1949. Brightness in visual field at borderline between comfort and discomfort (BCD). J Illum Eng. 44(1):650–670.
  • Marié S, Montés-Micó R, Martnez-Albert N, Garca-Marqués JV, Cerviño A. 2021. Evaluation of physiological parameters on discomfort glare thresholds using lumiz 100 tool. Transl Vis Sci Technol. 10(8): 28–28.
  • Parducci A. 1965. Category judgment: a range-frequency model. Psychol Rev. 72(6):407–418.
  • Parducci A, Perrett LF. 1971. Category rating scales: effects of relative spacing and frequency of stimulus value. J Exp Psychol. 89(2):427–452.
  • Parducci A, Wedell DH. 1986. The category effect with rating scales: number of categories, number of stimuli, and method of presentation. J Exp Psychol. 12(4):496–512.
  • Pierson C, Piderit M, Wienold J, Bodart M. 2017. Discomfort glare from daylighting: influence of culture on discomfort glare perception. In CIE 2017 Midterm Meeting; Jeju, South Korea.
  • Pierson C, Wienold J, Bodart M. 2018. Review of factors influencing discomfort glare perception from daylight. Leukos. 14(3):111–148.
  • Poulton EC. 1989. Biais in quantifying judgements. Hillsdale, MI: LEA.
  • Rubison RM, Bennett CA. 1979. Discomfort glare: distribution of responses. A reanalysis. Kansas State University. Technical Report 132.
  • Schmidt-Clausen H-J, Bindels JTH. 1974. Assessment of discomfort glare in motor vehicle lighting. Light Res Technol. 6(2):79–88.
  • Stevens SS. 1946. On the theory of scales of measurement. Science. 103(2684):677–680.
  • Stevens SS. 1957. On the psychophysical law. Psychol Rev. 64:153–181.
  • Thaler L, Schütz AC, Goodale MA, Gegenfurtner KR. 2013. What is the best fixation target? the effect of target shape on stability of fixational eye movements. Vision Res. 76(1):31–42.
  • Tuaycharoen N, Tregenza PR. 2007. View and discomfort glare from windows. Light Res Technol. 39(2):185–200.
  • Tyukhova YI. 2015. Discomfort glare from small, high luminance light sources in outdoor nighttime environments [PhD thesis]. Lincoln (North Carolina): University of Nebraska.
  • Tyukhova YI, Waters CE. 2018. Discomfort glare from small, high-luminance light sources when viewed against a dark surround. Leukos. 14(4):215–230.
  • Villa C, Brémond R, Saint-Jacques E. 2017. Assessment of pedestrian discomfort glare from urban LED lighting. Light Res Technol. 49(2):147–172.
  • Vissenberg M, Perz M, Donners M, Sekulovski D. 2021. A generic glare sensation model based on the human visual system. In CIE 2021 Midterm Meeting; Kuala-Lumpur, Malaysia.
  • Wienold J, Christoffersen J. 2006. Evaluation methods and development of a new glare prediction model for daylight environments with the use of ccd cameras. Energy Build. 38(7):743–757.

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