{"title":"led的亮度分布测量质量依赖于图像聚焦","authors":"D. Czyżewski","doi":"10.4302/PLP.V12I4.1077","DOIUrl":null,"url":null,"abstract":"Luminance measurements are used in a vast range of lighting technology fields. The author’s research has proved that measuring the luminance distribution on light source surface is the most challenging part of this process. The research has been conducted for a commercially available digital luminance distribution meter, with the goal of analyzing the influence of image focus settings and exposure parameters on the measured luminance values. It has been concluded that the incorrect image focus and inadequately matched exposure parameters (distance from the workpiece) contribute to quantitative changes in the information on luminance distribution on the LED surface and affect the precision the maximum luminance determination. Full Text: PDF ReferencesC. Xu, H. Cheng, and Y. Feng, \"Optical design of rectangular illumination with freeform lenses for the application of LED road lighting,\" Frontiers of Optoelectronics, 2017, CrossRef D. Czyzewski, \"LED substitutes of conventional incandescent lamps,\" Przeglad Elektrotechniczny, vol. 88, no. 11A, pp. 123-127, 2012. DirectLink W. R. Ryckaert, K. A. G. Smet, I. A. A. Roelandts, M. Van Gils, and P. Hanselaer, \"Linear LED tubes versus fluorescent lamps: An evaluation,\" Energy and Buildings, 2012, CrossRef X.-H. Lee, I. Moreno, and C.-C. Sun, \"High-performance LED street lighting using microlens arrays,\" Optics Express, 2013, CrossRef D. Czyzewski, \"The street lighting luminaires with LEDs,\" Przeglad Elektrotechniczny, vol. 86, pp. 276-279, 2009. DirectLink D. Mozyrska, M. Wyrwas, and I. Fryc, \"The determination of the LEDs colorimetric parameters, in the range of their operating temperature,\" Przeglad Elektrotechniczny, vol. 93, no. 4a, pp. 232-234, 2012. DirectLink J. Kowalska and I. Fryc, \"Colour rendition quality of typical fluorescent lamps determined by CIE colour fidelity index and colour rendering index,\" Przeglad Elektrotechniczny, vol. 95, no. 7, pp. 94--97, 2019, CrossRef J. Kowalska, \"Analysis of parameters describing the quality of the color rendering of light sources according to the IES TM-30-15 and the CIE 013.3-1995,\" Przeglad Elektrotechniczny, vol. 93, no. 6, pp. 50--54, 2017, CrossRef K. Houser, M. Mossman, K. Smet, and L. Whitehead, \"Tutorial: Color Rendering and Its Applications in Lighting,\" LEUKOS - Journal of Illuminating Engineering Society of North America, vol. 12, no. 1-2, pp. 7-26, 2016, CrossRef S. Słomiński, \"Identifying problems with luminaire luminance measurements for discomfort glare analysis,\" Lighting Research and Technology, 2016, CrossRef D. Czyzewski, \"Investigation of COB LED luminance distribution,\" 2016, CrossRef M. Jongewaard, \"Guide to selecting the appropriate type of light source model,\" in Proc.SPIE, Aug. 2002, vol. 4775, CrossRef D. Czyzewski, \"Selected problems of defining the luminous area of electroluminescent diodes,\" Przeglad Elektrotechniczny, vol. R. 84, nr 8, pp. 125-128, 2008. DirectLink C. D. Galatanu, \"Improving the Luminance Measurement from Digital Images,\" in 2019 International Conference on Electromechanical and Energy Systems (SIELMEN), 2019, pp. 1-4. CrossRef I. Fryc and E. Czech, \"Application of optical fibers and CCD array for measurement of luminance distribution,\" in Proc. SPIE 5064, Lightmetry 2002: Metrology and Testing Techniques Using Light, 2003, pp. 18-21, CrossRef I. Fryc and E. Czech, \"Spectral correction of the measurement CCD array,\" Optical Engineering, 2002, CrossRef I. Fryc, \"Angular characteristics of a silicon detector spectral sensitivity corrected by an absorption filter,\" in Proc. SPIE 4517, Lightmetry: Metrology, Spectroscopy, and Testing Techniques Using Light, 2001, pp. 42-45, CrossRef I. Fryc, \"Accuracy of spectral correction of a CCD array for luminance distribution measurement,\" in Proc. SPIE 5064, Lightmetry 2002: Metrology and Testing Techniques Using Light, 2003, pp. 38-42, CrossRef M. Moeck and S. Anaokar, \"Illuminance analysis from high dynamic range images,\" LEUKOS - Journal of Illuminating Engineering Society of North America, pp. 211-228, 2006, CrossRef D. Czyżewski, \"Research on luminance distributions of chip-on-board light-emitting diodes,\" Crystals, 2019, CrossRef","PeriodicalId":20055,"journal":{"name":"Photonics Letters of Poland","volume":" ","pages":""},"PeriodicalIF":0.5000,"publicationDate":"2020-12-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"The LEDs luminance distribution measurement quality dependency on image focusing\",\"authors\":\"D. Czyżewski\",\"doi\":\"10.4302/PLP.V12I4.1077\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Luminance measurements are used in a vast range of lighting technology fields. The author’s research has proved that measuring the luminance distribution on light source surface is the most challenging part of this process. The research has been conducted for a commercially available digital luminance distribution meter, with the goal of analyzing the influence of image focus settings and exposure parameters on the measured luminance values. It has been concluded that the incorrect image focus and inadequately matched exposure parameters (distance from the workpiece) contribute to quantitative changes in the information on luminance distribution on the LED surface and affect the precision the maximum luminance determination. Full Text: PDF ReferencesC. Xu, H. Cheng, and Y. Feng, \\\"Optical design of rectangular illumination with freeform lenses for the application of LED road lighting,\\\" Frontiers of Optoelectronics, 2017, CrossRef D. Czyzewski, \\\"LED substitutes of conventional incandescent lamps,\\\" Przeglad Elektrotechniczny, vol. 88, no. 11A, pp. 123-127, 2012. DirectLink W. R. Ryckaert, K. A. G. Smet, I. A. A. Roelandts, M. Van Gils, and P. Hanselaer, \\\"Linear LED tubes versus fluorescent lamps: An evaluation,\\\" Energy and Buildings, 2012, CrossRef X.-H. Lee, I. Moreno, and C.-C. Sun, \\\"High-performance LED street lighting using microlens arrays,\\\" Optics Express, 2013, CrossRef D. Czyzewski, \\\"The street lighting luminaires with LEDs,\\\" Przeglad Elektrotechniczny, vol. 86, pp. 276-279, 2009. DirectLink D. Mozyrska, M. Wyrwas, and I. Fryc, \\\"The determination of the LEDs colorimetric parameters, in the range of their operating temperature,\\\" Przeglad Elektrotechniczny, vol. 93, no. 4a, pp. 232-234, 2012. DirectLink J. Kowalska and I. Fryc, \\\"Colour rendition quality of typical fluorescent lamps determined by CIE colour fidelity index and colour rendering index,\\\" Przeglad Elektrotechniczny, vol. 95, no. 7, pp. 94--97, 2019, CrossRef J. Kowalska, \\\"Analysis of parameters describing the quality of the color rendering of light sources according to the IES TM-30-15 and the CIE 013.3-1995,\\\" Przeglad Elektrotechniczny, vol. 93, no. 6, pp. 50--54, 2017, CrossRef K. Houser, M. Mossman, K. Smet, and L. Whitehead, \\\"Tutorial: Color Rendering and Its Applications in Lighting,\\\" LEUKOS - Journal of Illuminating Engineering Society of North America, vol. 12, no. 1-2, pp. 7-26, 2016, CrossRef S. Słomiński, \\\"Identifying problems with luminaire luminance measurements for discomfort glare analysis,\\\" Lighting Research and Technology, 2016, CrossRef D. Czyzewski, \\\"Investigation of COB LED luminance distribution,\\\" 2016, CrossRef M. Jongewaard, \\\"Guide to selecting the appropriate type of light source model,\\\" in Proc.SPIE, Aug. 2002, vol. 4775, CrossRef D. Czyzewski, \\\"Selected problems of defining the luminous area of electroluminescent diodes,\\\" Przeglad Elektrotechniczny, vol. R. 84, nr 8, pp. 125-128, 2008. DirectLink C. D. Galatanu, \\\"Improving the Luminance Measurement from Digital Images,\\\" in 2019 International Conference on Electromechanical and Energy Systems (SIELMEN), 2019, pp. 1-4. CrossRef I. Fryc and E. Czech, \\\"Application of optical fibers and CCD array for measurement of luminance distribution,\\\" in Proc. SPIE 5064, Lightmetry 2002: Metrology and Testing Techniques Using Light, 2003, pp. 18-21, CrossRef I. Fryc and E. Czech, \\\"Spectral correction of the measurement CCD array,\\\" Optical Engineering, 2002, CrossRef I. Fryc, \\\"Angular characteristics of a silicon detector spectral sensitivity corrected by an absorption filter,\\\" in Proc. SPIE 4517, Lightmetry: Metrology, Spectroscopy, and Testing Techniques Using Light, 2001, pp. 42-45, CrossRef I. Fryc, \\\"Accuracy of spectral correction of a CCD array for luminance distribution measurement,\\\" in Proc. SPIE 5064, Lightmetry 2002: Metrology and Testing Techniques Using Light, 2003, pp. 38-42, CrossRef M. Moeck and S. Anaokar, \\\"Illuminance analysis from high dynamic range images,\\\" LEUKOS - Journal of Illuminating Engineering Society of North America, pp. 211-228, 2006, CrossRef D. 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引用次数: 1
摘要
亮度测量用于广泛的照明技术领域。作者的研究证明,测量光源表面的亮度分布是这一过程中最具挑战性的部分。该研究是针对商用数字亮度分布仪进行的,目的是分析图像焦点设置和曝光参数对测量亮度值的影响。已经得出的结论是,不正确的图像焦点和不充分匹配的曝光参数(与工件的距离)导致LED表面上亮度分布信息的定量变化,并影响最大亮度确定的精度。全文:PDF参考文献C。徐、程和冯,“LED道路照明应用中自由曲面透镜矩形照明的光学设计”,光电子前沿,2017,CrossRef D.Czyzewski,“传统白炽灯的LED替代品”,Przegled Elektrotechniczny,第88卷,第11A期,第123-1272012页。DirectLink W.R.Ryckaert、K.A.G.Smet、I.A.A.Roelands、M.Van Gils和P.Hanselaer,“线性LED管与荧光灯:评估”,《能源与建筑》,2012年,CrossRef X.-H.Lee、I.Moreno和C.C.Sun,“使用微透镜阵列的高性能LED路灯”,Optics Express,2013年,CrossRef D.Czyzewski,“LED路灯灯具”,Przegley Elektrotechniczny,第86卷,第276-2792009页。DirectLink D.Mozyrska、M.Wyrwas和I.Fryc,“LED比色参数在其工作温度范围内的测定”,Przegled Elektrotechniczny,第93卷,第4a期,第232-2342012页。DirectLink J.Kowalska和I.Fryc,“由CIE颜色保真度指数和显色指数确定的典型荧光灯的显色质量”,Przegley Elektrotechniczny,第95卷,第7期,第94-972019页,CrossRef J.Kowalski,“根据IES TM-30-15和CIE 013.3-1995对描述光源显色质量的参数进行分析”,Przegley Elektrotechniczny,第93卷,第6期,第50-542017页,CrossRef K.Houser、M.Mossman、K.Smet和L.Whitehead,“教程:显色及其在照明中的应用”,LEUKOS-北美照明工程学会杂志,第12卷,第1-2期,第7-262016页,CrossRef S.Słomiński,“识别用于不适眩光分析的灯具亮度测量的问题”,照明研究与技术,2016,CrossRef.D.Czyzewski,“COB LED亮度分布的调查”,2016,交叉Ref M.Jongewaard,“选择适当类型光源模型的指南”,Proc.SPIE,2002年8月,第4775卷,CrossRef D.Czyzewski,“定义电致发光二极管发光面积的选定问题”,Przegled Elektrotechniczny,第84卷,第8期,第125-1282008页。DirectLink C.D.Galatanu,“改进数字图像的亮度测量”,2019年国际机电与能源系统会议(SIELMEN),2019,第1-4页。CrossRef I.Fryc和E.Czech,“光纤和CCD阵列在亮度分布测量中的应用”,Proc。SPIE 5064,Lightmetering 2002:Metrology and Testing Techniques Using Light,2003,pp.18-21,CrossRef I.Fryc and E.Czech,“测量CCD阵列的光谱校正”,光学工程,2002,CrossRef.I.Fryc,“吸收滤光片校正的硅探测器光谱灵敏度的角特性”,Proc。SPIE 4517,《测光:使用光的计量、光谱和测试技术》,2001年,第42-45页,CrossRef I.Fryc,“用于亮度分布测量的CCD阵列光谱校正的准确性”,Proc。SPIE 5064,Lightmetering 2002:Metrology and Testing Techniques Using Light,2003,第38-42页,CrossRef M.Moeck和S.Anaokar,“高动态范围图像的照度分析”,LEUKOS-北美照明工程学会杂志,第211-2282006页,CrossRef D.Czyżewski,“板载芯片发光二极管的亮度分布研究”,Crystals,2019,CrossRef
The LEDs luminance distribution measurement quality dependency on image focusing
Luminance measurements are used in a vast range of lighting technology fields. The author’s research has proved that measuring the luminance distribution on light source surface is the most challenging part of this process. The research has been conducted for a commercially available digital luminance distribution meter, with the goal of analyzing the influence of image focus settings and exposure parameters on the measured luminance values. It has been concluded that the incorrect image focus and inadequately matched exposure parameters (distance from the workpiece) contribute to quantitative changes in the information on luminance distribution on the LED surface and affect the precision the maximum luminance determination. Full Text: PDF ReferencesC. Xu, H. Cheng, and Y. Feng, "Optical design of rectangular illumination with freeform lenses for the application of LED road lighting," Frontiers of Optoelectronics, 2017, CrossRef D. Czyzewski, "LED substitutes of conventional incandescent lamps," Przeglad Elektrotechniczny, vol. 88, no. 11A, pp. 123-127, 2012. DirectLink W. R. Ryckaert, K. A. G. Smet, I. A. A. Roelandts, M. Van Gils, and P. Hanselaer, "Linear LED tubes versus fluorescent lamps: An evaluation," Energy and Buildings, 2012, CrossRef X.-H. Lee, I. Moreno, and C.-C. Sun, "High-performance LED street lighting using microlens arrays," Optics Express, 2013, CrossRef D. Czyzewski, "The street lighting luminaires with LEDs," Przeglad Elektrotechniczny, vol. 86, pp. 276-279, 2009. DirectLink D. Mozyrska, M. Wyrwas, and I. Fryc, "The determination of the LEDs colorimetric parameters, in the range of their operating temperature," Przeglad Elektrotechniczny, vol. 93, no. 4a, pp. 232-234, 2012. DirectLink J. Kowalska and I. Fryc, "Colour rendition quality of typical fluorescent lamps determined by CIE colour fidelity index and colour rendering index," Przeglad Elektrotechniczny, vol. 95, no. 7, pp. 94--97, 2019, CrossRef J. Kowalska, "Analysis of parameters describing the quality of the color rendering of light sources according to the IES TM-30-15 and the CIE 013.3-1995," Przeglad Elektrotechniczny, vol. 93, no. 6, pp. 50--54, 2017, CrossRef K. Houser, M. Mossman, K. Smet, and L. Whitehead, "Tutorial: Color Rendering and Its Applications in Lighting," LEUKOS - Journal of Illuminating Engineering Society of North America, vol. 12, no. 1-2, pp. 7-26, 2016, CrossRef S. Słomiński, "Identifying problems with luminaire luminance measurements for discomfort glare analysis," Lighting Research and Technology, 2016, CrossRef D. Czyzewski, "Investigation of COB LED luminance distribution," 2016, CrossRef M. Jongewaard, "Guide to selecting the appropriate type of light source model," in Proc.SPIE, Aug. 2002, vol. 4775, CrossRef D. Czyzewski, "Selected problems of defining the luminous area of electroluminescent diodes," Przeglad Elektrotechniczny, vol. R. 84, nr 8, pp. 125-128, 2008. DirectLink C. D. Galatanu, "Improving the Luminance Measurement from Digital Images," in 2019 International Conference on Electromechanical and Energy Systems (SIELMEN), 2019, pp. 1-4. CrossRef I. Fryc and E. Czech, "Application of optical fibers and CCD array for measurement of luminance distribution," in Proc. SPIE 5064, Lightmetry 2002: Metrology and Testing Techniques Using Light, 2003, pp. 18-21, CrossRef I. Fryc and E. Czech, "Spectral correction of the measurement CCD array," Optical Engineering, 2002, CrossRef I. Fryc, "Angular characteristics of a silicon detector spectral sensitivity corrected by an absorption filter," in Proc. SPIE 4517, Lightmetry: Metrology, Spectroscopy, and Testing Techniques Using Light, 2001, pp. 42-45, CrossRef I. Fryc, "Accuracy of spectral correction of a CCD array for luminance distribution measurement," in Proc. SPIE 5064, Lightmetry 2002: Metrology and Testing Techniques Using Light, 2003, pp. 38-42, CrossRef M. Moeck and S. Anaokar, "Illuminance analysis from high dynamic range images," LEUKOS - Journal of Illuminating Engineering Society of North America, pp. 211-228, 2006, CrossRef D. Czyżewski, "Research on luminance distributions of chip-on-board light-emitting diodes," Crystals, 2019, CrossRef
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