Experimental Assessment of WLED Lamp Performance for Area Lighting Application under Mesopic Photometry System
Keywords:
Mesopic PhotometrY, Area Lighting,Abstract
Human eye response is characterised by photopic spectral luminous efficiency function [V(λ)] and scotopic luminous efficiency function [V′(λ)] for photopic and scotopic vision respectively. In the mesopic zone there are no fixed response characteristics but with the increase of luminance the response shifts from scotopic to photopic region and shifts from photopic to scotopic with the decrease in luminance. Luminance level in various road lighting and area lighting installation lies in the mesopic zone. In this work experimental analysis of different lamp performances in mesopic zone for area lighting installations have been performed in both laboratory and outdoor field applications. It has been found that in both cases, changes in mesopic luminance from photopic luminance occur according to the standard CIE 191:2010. Therefore white light emitting diode (WLED) shows better photometric performance and would deliver better energy efficient performance in the mesopic zone as compared to conventional lamps i.e. high pressure sodium vapour lamp (HPSV).
References
[1] Commission Internationale de l’Eclairage. “Recommended System for Mesopic Photometry Based on Visual Performance”. CIE Publication 191-2010, Vienna: CIE, 2010.
[2] A.M.Kostic, M.M.Kremic, L.S.Djokic, M.B.Kostic, “Light-emitting diodes in street and roadway lighting – a case study
involving mesopic effects”, Lighting Research Technology, 2013, vol 45, pp 217-229.
[3] Wei Luo , “Outdoor lighting – Mesopic photometry, adaptation conditions and user preferences in pedestrian way lighting”, Aalto University, Doctoral Dissertations 85/2014.
[4] M.S.Rea, J.D.Bullough, J.A.Brons, “Spectral Considerations for outdoor lighting: Designing for perceived scene brightness”, Lighting Research Technology, 2014, vol 1, pp 1-11.
[5] M.B. Kostic, L.S. Djokic, ‘A modified CIE Mesopic table and the effectiveness of white light sources’, Lighting Research and Technology, 2012; 44: 416–426.
[6]W. J. M. Van Bommel, J. B. De Boer, “Road Lighting”. Eindhoven, Philips Technical Library, 1980.
[7]IESNA : IESNA Lighting Handbook, Tenth Edition, 2013, David L. DiLaura, Kevin W. Houser, Richard G. Mistrick, Gary R. Steffy
[8] CIE : CIE Technical Report 191 :Recommended System for Mesopic Photometry Based on Visual Performance, 2010.
[9] .M.Kostic, M.M.Kremic, L.S.Djokic, M.B.Kostic,: “Light-emitting diodes in street and roadway lighting – a case study involving mesopic effects” A University of Belgrade, Belgrade, Serbia, pub. Lighting Research Technology, 2013, 45, 217-229.
[10] Wei Luo, “Outdoor lighting – Mesopic photometry, adaptation conditions and user preferences in pedestrian way lighting” , Aalto University, Doctoral Dissertations 85/2014.
[11] M.S.Rea, J.D.Bullough, J.A.Brons , “Spectral Considerations for outdoor lighting: Designing for perceived scene brightness,” Lighting Reasearch Center, Renssselaer Polytechnique institute, Troy, New York, USA, pub. Lighting Research Technology, 2014, 0, 1-11.
[12] .Fraytag, M.F.Silva, N.B.Chagas, C.H.Barriquello, A.R.Seidel, R.N.Prado and M.A.D. Costa. “Efficient Lighting Systems Based on Photopic and Scotopic Visual Conditions”, J, pub.XVII Congresso Brasileiro de Automatica, 2010.
[13] S.Fotios and T.Goodman, “Proposed UK Guidance for Lighting in Residential Road” , pub. Lighting Research Technology, 2012, 44, 69-83.
[14] Peter Morante , “Mesopic Street Lighting Demonstration and Evaluation Final Report”,Lighting Research Center, Rensselaer Polytechnic Institute, Troy, New York, January, 2008.
[15] M.S.Rea, J.D.Bullough, J.P.Freyssinier, A.Bierman , “A Proposed Unified System of Photometr” , Lighting Research Center, Rensselaer Polytechnic Institute, Troy, New York, pub. Lighting Research Technology, 2004, 36,2, 85-111.
[16] S.A.Fotios, C.Cheal . “Predicting Lamp Spectrum Effects at Mesopic Levels. Part1: Spatial Brightness” , School of Architecture, University of Sheffield, UK, pub. Lighting Research Technology, 2011, 43, 143-157.
[17] “Performance Based Model for Mesopic Photometry, MOVE Report”, Helsinki University of Technology, Lighting Laboratory, Finland, 2005, ISBN 951-22-7566-X, ISSN 1455-7541.
[18] Joel Pokorny, Dingcai Cao, “Rod and Cone Contribution to Mesopic Vision”, Visual Science Laboratories, University of Chicago, USA, pub. Proceedings of CIE 2010, Lighting Quality and Energy Efficiency, 2010.
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