SELECTED METROLOGY PROBLEMS IMPLIED BY THE APPLICATION OF LED TECHNOLOGY IN LIGHTING

Urszula Błaszczak

u.blaszczak@pb.edu.pl
Politechnika Białostocka, Katedra Elektroenergetyki, Fotoniki i Techniki Świetlnej (Poland)

Andrzej Stanisław Zając


Politechnika Białostocka, Katedra Elektroenergetyki, Fotoniki i Techniki Świetlnej (Poland)

Abstract

High power LEDs replace traditional light sources in all possible lighting applications, causing significant problems in assessing the quality of lighting. This issue is not limited only to the construction aspects of the measuring equipment, but also has a cognitive dimension. The article presents an overview of the current state of knowledge on color rendering and evaluation of discomfort glare in relation to the widespread use of LEDs in lighting. Some selected parameters developed copyright sources with LED sets. Basic limitations in UGR measurement were indicated.


Keywords:

light emitting diodes, measurement, lighting technology

Ayama M.: Assessing Glare Based on LED Lighting, ChinaSSL, Beijing 2013 w IEEE [DOI: 10.1109/SSLCHINA.2013.7177354].
  Google Scholar

Behar–Cohen F, Martinsons C., Vienot F., Zissis G., Barlier-Salsi A, Cesarini JP, Enouif O., Garcia M., Picaud S., Attia D.: Light emitting diodes (LED) for domestic lighting: Any risks for the eye?, Progress in Retinal and Eye Research, 30/2011, 239-257, [DOI: 10.1016/j.preteyeres.2011.04.002].
  Google Scholar

Błaszczak U.J.: Method for evaluating discomfort glare based on the analysis of digital image of an illuminated interior. Metrology and Measurement Systems, 20/2013, 623–634, [DOI: 10.2478/mms-2013-0053].
  Google Scholar

Błaszczak U., Gilewski M., Gryko L., Zając A., Kukwa W., Kukwa A.: Applications of optical fibers and miniature photonic elements in medical diagnostics, Proceedings of SPIE, 9228/2014, [DOI: 10.1117/12.2065134]
  Google Scholar

Błaszczak U.J., Gryko Ł., Zając A., Szczesik E.: Wybrane zagadnienia dotyczące projektowania charakterystyki spektralnej układu oświetlającego do zastosowań medycznych na przykładzie oświetlacza endoskopu. Przegląd Elektrotechniczny, 91(11)/2015, 326-329, [doi:10.15199/48.2015.11.74].
  Google Scholar

Bodrogi P., Brückner S., Khanh T. Q.: Ordinal scale based description of color rendering, Color Research and Application, 36(4)/2011, 272–285, [DOI: 10.1002/col.20629].
  Google Scholar

Cai H.: Luminance gradient for lighting evaluation. Lighting Research and Technology, 48(2)/2016, 155-175, [DOI:1477153513512501].
  Google Scholar

Cai H., Chung T.: Evaluating discomfort glare from non-uniform electric light sources. Lighting Research &Technology, 45/2013, 267-294, [DOI: 10.1177/1477153512453274].
  Google Scholar

CIE 13:1965: Methods of measuring and specifying colour rendering properties of light sources. CIE, Vienna Austria 1965.
  Google Scholar

CIE 13.2:1995: Method of measuring and specifying color rendering properties of light sources. CIE, Vienna,Austria 1995.
  Google Scholar

CIE 117:1995: Technical Raport: Discomfort Glare in Interior Lighting. CIE, Vienna Austria 1995.
  Google Scholar

CIE 146, 147:2002: CIE Collection on Glare. CIE, Vienna Austria, 2002.
  Google Scholar

CIE 177:2007: Color rendering of white LED light sources. CIE, Vienna Austria 2007.
  Google Scholar

CIE 205:2013: Review of lighting quality measures for interior lighting with LED lighting systems. CIE, Vienna Austria 2013.
  Google Scholar

CIE 217:2016: Recommended Method for Evaluating the Performance of Colour-Difference Formulae. CIE, Vienna Austria 2016.
  Google Scholar

Davis W., Ohno Y.: Color quality scale. Optical Engineering 49(3)/2010, 033602, [doi:10.1117/1.3360335].
  Google Scholar

Davis W., Ohno Y.: Toward an improved color rendering metric. Proceedings of the SPIE 5941/2005, 1G1-6, [doi:10.1117/12.615388].
  Google Scholar

Geedrinck LM, Van Gheluwe JR, Vissenberg MCJM: Discomfort glare perception of non-uniform light sources in an office setting. Journal of Environmental Psychology 39/2014, 1-9 [doi:10.1016/j.jenvp.2014.04.002].
  Google Scholar

Gryko Ł., Błaszczak U., Zając A., Palkowska A.: Ocena możliwości modelowania temperatury barwowej najbliższej zestawu diod elektroluminescencyjnych dużej mocy, przyjęte do druku w 2016 w Przeglądzie Elektrotechnicznym.
  Google Scholar

Hashimoto K et al.: New method for specifying color-rendering properties of light sources based on feeling of contrast. Color Research and Application 32(5)/2007, 361–371, [DOI: 10.1002/col.20338].
  Google Scholar

Houser K.H., Wei M., Aurélien D., Krames M.R., Shen X.S.: Review of measures for light-source color rendition and considerations for a two-measure system for characterizing color rendition, OPTICS EXPRESS 21(8)/2013, 10393-10411, [DOI:10.1364/OE.21.010393].
  Google Scholar

Huang M., Cui G. et.al: Power functions improving the performance of color-difference formulas. OPTICS EXPRESS 23(1)/2015, 597-610, [DOI:10.1364/OE.23.000597].
  Google Scholar

Iacomussi P., Radis M., Rossi G., Rossi L.: Visual comfort with LED lighting. Energy Proceedia 78/2015, 729-734, [DOI: 10.1016/j.egypro.2015.11.082].
  Google Scholar

Judd D.B.: A flattery index for artificial illuminants. Illuminating Engineering 62/1967, 593–598, [DOI:10.1177/1477153514532122].
  Google Scholar

Kasahara T. et al.: Discomfort glare caused by white LED light sources, Journal of Light and Visual Enviroment, 30(2)/2006, 95-103
  Google Scholar

Khanh T.Q. et al.: LED lighting, Wiley-VCH, Weinheim 2015.
  Google Scholar

Malovrh Rebec K. Klanjsek Gunde M., Bizjak G., Kobav M.: White LED compared to other light sources – age dependent photobiological effects and parameters for evaluation, International Journal of Occupational Safety and Ergonomics JOSE 21(3)/2015, 391–398, [DOI: 10.1080/10803548.2015.1085163].
  Google Scholar

Nonne J., Renoux D., Rossi L.: Metrology for solid-state lighting quality. 16th International Congress of Metrology, 2013; 14004, p-8.
  Google Scholar

Ohno Y., NIST, CQS 9.0.c (Win XLS), 2013.
  Google Scholar

Pointer M. R.: Measuring colour rendering—a new approach, Lighting Research and Technology 18(4)/1986, 175–184, [DOI: 10.1177/096032718601800404].
  Google Scholar

Pointer M. R.: Measuring colour rendering—a new approach II, NPL Report: DQL-OR 007, 2004.
  Google Scholar

Poplawski M.E., Miller N.M.: Flicker in solid-state lighting: Measurement techniques and proposed reporting and application criteria. Proceedings of CIE Centenary Conference “Towards a new century of light”. Paris, France 2013.
  Google Scholar

PN-EN 12464-1:2012 Światło i oświetlenie – Oświetlenie miejsc pracy. Część 1: Miejsca pracy we wnętrzach. Polski Komitet Normalizacyjny 2012.
  Google Scholar

Rea M. S. , Freyssinier-Nova J. P.: Color rendering: a tale of two metrics, Color Research and Application 33(3)/2008, 192–202, [DOI: 10.1002/col.20399].
  Google Scholar

Seim T.: In search of an improved method for assessing the colour rendering properties of light sources, Lighting Research and Technology, 1985, 17(1), 12–22 [DOI: 10.1177/14771535850170010401]
  Google Scholar

Smet K. A. G., Ryckaert W. R, Pointer M. R., Deconinck G., Hanselaer P.: Memory colours and colour quality evaluation of conventional and solid-state lamps, Optics Express 18(25)/2010, 26229–26244, [DOI: 10.1364/OE.18.026229].
  Google Scholar

Takahashi H. et al.: Position index for the matrix light source, Journal of Light and Visual Environment 31(3)/2007, 128-133, [doi: 10.2150/jlve.31.128].
  Google Scholar

Thornton W.A.: A validation of the color-preference index. Journal of Illuminating Engineering Society, 1(4)/1974, 48–52, [DOI: 10.1080/00994480.1974.10732288].
  Google Scholar

Xu H.: Colour rendering capacity and luminous efficiency of a spectrum. Lighting Research and Technology, 25(3)/1993, 131–132.
  Google Scholar

Worthey J.A.: Color rendering: asking the question, Color Research and Applications 28(6)/2003, 403–412, [DOI: 10.1002/col.10193].
  Google Scholar

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Published
2016-08-08

Cited by

Błaszczak, U., & Zając, A. S. (2016). SELECTED METROLOGY PROBLEMS IMPLIED BY THE APPLICATION OF LED TECHNOLOGY IN LIGHTING. Informatyka, Automatyka, Pomiary W Gospodarce I Ochronie Środowiska, 6(3), 6–11. https://doi.org/10.5604/20830157.1212257

Authors

Urszula Błaszczak 
u.blaszczak@pb.edu.pl
Politechnika Białostocka, Katedra Elektroenergetyki, Fotoniki i Techniki Świetlnej Poland

Authors

Andrzej Stanisław Zając 

Politechnika Białostocka, Katedra Elektroenergetyki, Fotoniki i Techniki Świetlnej Poland

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