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E-journal for electrical and electronic engineers
AUTOMATYKA, ELEKTRYKA, ZAKLOCENIA

(AUTOMATICS, ELECTROTECHNICS, DISTURBANCES)

Vol. 14, nr 2 (52) 2023

Publ. 30.10.2023

Koncepcja budowy stanowiska do wzorcowania matrycowych mierników luminancji

Urszula BLASZCZAK, Marcin LESKO, Henryk WACHTA, Krzysztof BARAN, Maciej ZAJKOWSKI

s. 76-84 DOI: 10.17274/AEZ.2023.52.03

Abstract

In the calibration procedure of luminance meters, it is crucial to establish a processing function specific to each meter. It is therefore necessary to develop a system that generates a standard luminance distribution with specific quantitative and geometric features. The article presents conclusions from analyses aimed at determining the initial requirements for the construction of a station for calibrating matrix luminance meters, as well as simulation results enabling the determination of the initial concept of the stations implementation.

Keywords

luminance, matrix luminance meter, calibration

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Bilbiography

[1] ISO/CIE 19476:2014 “Characterization of the Performance of Illuminance Meters and Luminance Meters”, 2014.
[2] M.S. Rea., I.G. Jeffrey: “A new luminance and image analysis system for lighting and vision I. Equipment and calibration”, Journal of the Illuminating Engineering Society, 19(1), 64-72, 1990.
[3] CIE 244:2021 “Characterization of imaging luminance measurement devices (ILMDs)”, 2021.
[4] International Vocabulary of Metrology VIM BIPM, 2012.
[5] T. Moore I inni: “Approximate field measurement of surface luminance using a digital camera”, Lighting Research and Technology 32(1), 1-11, 2000.
[6] H. Cai. T.M. Chung.: ”Improving the quality of high dynamic range images”, Lighting Research and Technology, 43, 87-102, 2011.
[7] H. Cai: “High dynamic range photogrammetry for synchronous luminance and geometry measurement”, Lighting Research and Technology 45, 230-257, 2013.
[8] C. Pierson i inni: “Tutorial: Luminance maps for daylight studies from high dynamic range photohraphy”, LEUKOS, 17:2, 140-169, 2020.
[9] A. Borisuit i inni: “A new device for dynamic luminance mapping and glare risk assessment in buildings”, Proceedings of SPIE, Vol. 8485, Nonimaging Optics: Efficient Design for Illumination and Solar Concentration IX; 84850M, 2012.
[10] R.M. Poling., H. Cai: “Calculating luminous flux radiated to a camera lens via high dynamic range photogrammetry”, Lighting Research and Technology, 53, 119-145, 2021.
[11] ISO 11664-2/CIE S 014-2 (CIE 015:2018) Colorimetry, 3rd and 4th edition.
[12] CIE S 017/E:2020 “International lighting vocabulary”, 2020.
[13] U.J. Błaszczak i inni: „Characterization of multi-emitter tuneable LED source for endoscopic applications”, Metrology and Measurement Systems 26(1):153-169, 2019.
[14] Alireza Mahmoudi Nahavandi i inni: "LED primary selection algorithms for simulation of CIE standard illuminants," Optics Express 28, 34390-34405, 2020.
[15] A. Kokka i inni: “Development of white LED illuminants for colorimetry and recommendation of white LED reference spectrum for photometry“, Metrologia 55 526, 2018.
[16] F.J. Burgos I inni: „Spectral LED-Based Tuneable Light Source for the Reconstruction of CIE Standard Illuminants”. In: Elmoataz, A., Lezoray, O., Nouboud, F., Mammass, D. (eds) Image and Signal Processing. Lecture Notes in Computer Science, vol 8509. Springer, 2014.