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LEUKOS
The Journal of the Illuminating Engineering Society
Volume 19, 2023 - Issue 2
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Review Article

A Review of Illuminance Mapping Practices from HDR Images and Suggestions for Exterior Measurements

Arpan Guhaa Department of Civil and Architectural Engineering, Lawrence Technological University, Southfield, Michigan, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-4837-7897View further author information
ORCID Icon,
Alayne Nyboera Department of Civil and Architectural Engineering, Lawrence Technological University, Southfield, Michigan, USAView further author information
&
Dale K. Tillerb Durham School of Architectural Engineering and Construction, University of Nebraska-Lincoln, Omaha, Nebraska, USAORCID Iconhttps://orcid.org/0000-0002-2685-3891View further author information
ORCID Icon
Pages 210-220 | Received 27 Jan 2022, Accepted 14 Jun 2022, Published online: 26 Jul 2022

References

  • Ashdown I, Rykowski R. 1998. Making near-field photometry practical. J Illum Eng Soc. 27(1):67–79.
  • Bellia L, Musto M, Spada G. 2011. Illuminance measurements through HDR imaging photometry in scholastic environment. Energy Build. 43(10):2843–2849.
  • Bellia L, Spada G. 2014. Photometric characterisation of small sources with high dynamic range illuminance mapping. Light Res Technol. 46(3):329–340.
  • Cai H, Chung T. 2011. Improving the quality of high dynamic range images. Light Res Technol. 43(1):87–102.
  • Cauwerts C, Piderit M. 2018. Application of high-dynamic range imaging techniques in architecture: a step toward high-quality Daylit interiors? J Imaging. 4(1):19.
  • Cox S 2017. What is F-stop, how it works and how to use it in photography. Photography Life. [Internet]. [accessed 2021 Oct 5]. https://photographylife.com/f-stop.
  • Coyne S, Isoardi G, Luther MB, Hirning M. 2008. The use of high dynamic range luminance mapping in the assessment, understanding and defining of visual issues in post occupancy building assessments. International conference on energy efficiency in commercial buildings (IEECB’08). Frankfurt (Germany). p. 9.
  • Cuttle C. 2013. A new direction for general lighting practice. Light Res Technol. 45(1):22–39.
  • DIN 5032-7. 2017. Classification of illuminance meters and luminance meters [Internet]. DIN 5032-7. Deutsches Institut fur Normung E.V. (DIN). https://www.en-standard.eu/din-5032-7-photometry-part-7-classification-of-illuminance-meters-and-luminance-meters/.
  • Duff J, Antonutto G, Torres S. 2016. On the calculation and measurement of mean room surface exitance. Light Res Technol. 48(3):384–388.
  • Houser KW, Wei M, Royer MP. 2011. Illuminance uniformity of outdoor sports lighting. LEUKOS. 7(4):221–235.
  • Illuminating Engineering Society. 2020a. ANSI/IES RP-6-20 - recommended practice: lighting sports and recreational areas [Internet]. [place unknown]. [accessed 2021 Sep 16]. https://webstore.ansi.org/Standards/IESNA/ANSIIESRP20-2440852?source=blog&_ga=2.101156801.1740211792.1631812648-1075506987.1631812648.
  • Illuminating Engineering Society of North America. 2020b. ANSI/IES LS 6-20: lighting science: calculation and light and its effects. New York (NY): Illuminating Engineering Society of North America.
  • Inanici M. 2006. Evaluation of high dynamic range photography as a luminance data acquisition system. Light Res Technol. 38(2):123–134.
  • Inanici M. 2010. Evalution of high dynamic range image-based sky models in lighting simulation. LEUKOS. 7(2):69–84. doi:10.1582/LEUKOS.2010.07.02001.
  • Inkarojrit V. 2008. Monitoring and modelling of manually-controlled Venetian blinds in private offices: a pilot study. J Build Perform Simul. 1(2):75–89.
  • ISO/CIE 19476. 2014. Characterization of the performance of illuminance meters and luminance meters.
  • Jacobs A. 2007. High dynamic range imaging and its application in building research. Adv Build Energy Res. 1(1):177–202.
  • Jung B, Inanici M. 2019. Measuring circadian lighting through high dynamic range photography. Light Res Technol. 51(5):742–763.
  • Kim M, Konstantzos I, Tzempelikos A. 2019. A low-cost stereo-fisheye camera sensor for daylighting and glare control. J Phys: Conf Ser. 1343:012157.
  • Krüger U, Blattner P. 2013. Spectral mismatch correction factor estimation for white LED spectra based on the photometer’s f1' value. Proceedings of the CIE Centenary Conference, Paris, France: Commission Internationale de l’Eclairage. p. 300–307.
  • Kruisselbrink T, Dangol R, Rosemann A. 2018. Photometric measurements of lighting quality: an overview. Build Environ. 138:42–52.
  • Kundu D, Ghadiyaram D, Bovik AC, Evans BL. 2017. No-reference quality assessment of tone-mapped HDR pictures. IEEE Trans Image Process. 26(6):2957–2971.
  • Kwon H-J, Lee S-H, Lee G-Y, Sohng K-I. 2016. Radiance map construction based on spatial and intensity correlations between LE and SE images for HDR imaging. J Vis Commun Image Represent. 38:695–703.
  • Li H, Cai H, Wang G 2020. Improving high dynamic range image based light measurement. 2020 IEEE International Conference on Systems, Man, and Cybernetics (SMC), [place unknown]. p. 274–279. 10.1109/SMC42975.2020.9282926
  • Mardaljevic J, Painter B, Andersen M. 2009. Transmission illuminance proxy HDR imaging: a new technique to quantify luminous flux. Light Res Technol. 41(1):27–49.
  • Mardaljevic J, Brembilla E, Drosou N. 2015. Illuminance-proxy high dynamic range imaging: a simple method to measure surface reflectance. Manchester (UK): Commission Internationale de l’Eclairage.
  • Mardaljevic J, Cannon-Brookes S, Blades N, Lithgow K. 2021. Reconstruction of cumulative daylight illumination fields from high dynamic range imaging: theory, deployment and in-situ validation. Light Res Technol. 53(4):311–331.
  • Moeck M, Anaokar S. 2006. Illuminance Analysis from High Dynamic Range Images. LEUKOS. 2 (3): 211–228. https://doi.org/10.1582/LEUKOS.2006.02.03.005
  • Overington I. 1976. Vision and acquisition: fundamentals of human visual performance, environmental influences, and applications in instrumental optics. [place unknown]: Pentech Press.
  • Overton TK. 1969. Camouflage colours*. J Soc Dyers Colour. 85(4):152–154.
  • Pierson C, Wienold J, Jacobs A, Bodart M 2017. Luminance maps from high dynamic range imaging: calibrations and adjustments for visual comfort analysis. Lux Europa; September 18-20; Ljubljana, Slovenia. p. 147–151.
  • Pierson C, Cauwerts C, Bodart M, Wienold J. 2021. Tutorial: luminance maps for daylighting studies from high dynamic range photography. LEUKOS. 17(2):140–169.
  • Poling R, Cai H. 2021. Calculating luminous flux radiated to a camera lens via high dynamic range photogrammetry. Light Res Technol. 53(2):119–145.
  • Rea MS, Jeffrey IG. 1990. A new luminance and image analysis system for lighting and vision I. Equipment and calibration. J Illum Eng Soc. 19(1):64–72.
  • Robertson MA. 2003. Estimation-theoretic approach to dynamic range enhancement using multiple exposures. J Electron Imaging. 12(2):219.
  • Safranek S, Davis RG. 2021. Sources of error in HDRI for luminance measurement: a review of the literature. LEUKOS. 17(2):187–208.
  • Suk J, Schiler M. 2013. Investigation of Evalglare software, daylight glare probability and high dynamic range imaging for daylight glare analysis. Light Res Technol. 45(4):450–463.
  • Tansley BW, Houser KW, Pasini IC. 1999. The IQCam digital image photometer system: principles of operation and comparative performance. J Illum Eng Soc. 28(1):182–200.
  • Valdelomar P, Gómez-Amo JL, Peris-Ferrús C, Scarlatti F, Utrillas MP. 2021. Feasibility of ground-based sky-camera HDR imagery to determine solar irradiance and sky radiance over different geometries and sky conditions. Remote Sens. 13(24):5157.
  • Wolska A, Sawicki D. 2020. Practical application of HDRI for discomfort glare assessment at indoor workplaces. Measurement. 151:107179.
  • Xia L, Xu R, Zhang T, Liu X. 2021. Theory and simulation of calculating local illuminance density based on high dynamic range panoramic maps. Light Res Technol. 14771535211030494. doi:10.1177/14771535211030494
  • Yamín Garretón J, Villalba AM, Rodriguez RG, Pattini A. 2021. Roller blinds characterization assessing discomfort glare, view outside and useful daylight illuminance with the sun in the field of view. Sol Energy. 213:91–101.
  • Yun G, Yoon KC, Kim KS. 2014. The influence of shading control strategies on the visual comfort and energy demand of office buildings. Energy Build. 84:70–85.
  • Yun S-I, Kim K-S. 2018. Sky luminance measurements using CCD camera and comparisons with calculation models for predicting indoor illuminance. Sustainability. 10(5):1556.

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