Color-rendering Properties and Analysis on Road Lighting Power Density Under Mesopic Vision Based on Reaction Time

WANG Jian-ping; YAN Xiao-long; XU Xiao-bing

doi:10.3788/fgxb20153605.0595

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Color-rendering Properties and Analysis on Road Lighting Power Density Under Mesopic Vision Based on Reaction Time

更新时间：2020-08-12

- Color-rendering Properties and Analysis on Road Lighting Power Density Under Mesopic Vision Based on Reaction Time
- Chinese Journal of Luminescence Vol. 36, Issue 5, Pages: 595-603(2015)
- 作者机构：
  
  合肥工业大学电气与自动化工程学院,安徽合肥,230009
- 作者简介：
- 基金信息：
- DOI：10.3788/fgxb20153605.0595
  CLC： TU113.19
- Received：28 January 2015，
  
  Revised：02 March 2015，
  
  Published：03 May 2015
- 稿件说明：
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王建平, 严晓龙, 徐晓冰. 基于反应时间的中间视觉道路照明功率密度分析及显色性能研究[J]. 发光学报, 2015,36(5): 595-603

WANG Jian-ping, YAN Xiao-long, XU Xiao-bing. Color-rendering Properties and Analysis on Road Lighting Power Density Under Mesopic Vision Based on Reaction Time[J]. Chinese Journal of Luminescence, 2015,36(5): 595-603
王建平, 严晓龙, 徐晓冰. 基于反应时间的中间视觉道路照明功率密度分析及显色性能研究[J]. 发光学报, 2015,36(5): 595-603 DOI： 10.3788/fgxb20153605.0595.

WANG Jian-ping, YAN Xiao-long, XU Xiao-bing. Color-rendering Properties and Analysis on Road Lighting Power Density Under Mesopic Vision Based on Reaction Time[J]. Chinese Journal of Luminescence, 2015,36(5): 595-603 DOI： 10.3788/fgxb20153605.0595.

摘要

给出了一种在人眼中间视觉条件下道路照明光源安全节能性能分析的研究方法。通过构建基于中间视觉行车行为反应时间模拟测试系统

建立了人眼中间视觉条件下的光视光效模型

获得了中间视觉下的光视光效曲线。并通过该模型

给出了基于照明功率密度LPD的光源节能性评价方法。从色度学理论出发

选用Luv均匀颜色空间

基于显色指数的光源显色性评价分析计算方法

探讨了不同主波长光源的相对光谱功率分布变化对光源颜色的影响

建立了光源主波长与显色指数的函数关系表达式

可计算获得人眼敏感度与光源颜色各个波长点的关系。对上述方法进行了反应时间模拟测试实验和道路照明图像清晰度计算实验验证

数据分析与计算结果表明

在中间视觉条件下

以540~550 nm为主波长的白绿色照明光源的功率密度和显色性最佳。

Abstract

A research method of analysis of the road lighting source safety and energy-saving properties under the human mesopic conditions was given. By constructing the reaction time test system for road lighting under the mesopic vision

the luminous efficiency model was established and luminous efficiency curve was obtained. By using this model

the evaluation method of energy efficiency based on the lighting power density was given. Using the calculation and analysis method of the color-rendering properties based on the color-rendering index

the effect of the changes in relative spectral power distribution on the color of light source was discussed under Luv uniform color space

and the function expression between the dominant wavelength of the light source and color-rendering index was established

which can be used to obtain the relationship between human sensitivity and light source color of each wavelength point. The above method was verified by the reaction time simulation test and the definition of the road lighting picture calculation experiment. The results show that the green-white light source with dominant wavelength of 540-550 nm has the best power-saving and color-rendering properties under the mesopic vision.

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Keywords

references

Li J S, Li T N. Some problems about revising the 《Standard for lighting Design of Urban Road》[J]. China Illumin. Eng. J.(照明工程学报), 2004, 15(1):38-42 (in Chinese).

Ministry of Construction of China. Standard for Lighting Design of Urban Road [M]. Beijing:China Architecture & Building Press, 2007 (in Chinese).

Shang P Y, Tang C W, Huang B J, et al. Charaterizing LEDs for mixture of colored LED light sources[C]//Proceedings of International Conference on Electronic Materials and Packaging, Kowloon:IEEE, 2006:1-5.

CIE115-2010. Technical report recommendations for the lighting of roads for motor and pedestrian traffic [S]. International Commission on Illumination, 2010.

Yang C Y, Hu Y K, Chen Z L. Study on road lighting energy saving based on mesopic theory [J]. China Illumin. Eng. J.(照明工程学报), 2008, 19(4):44-47 (in Chinese).

Zhang Y G, Gao F, Li S L. Relation between light distribution and lighting energy saving [J]. China Illumin. Eng. J.(照明工程学报), 2012, 23(4):42-47 (in Chinese).

Chen Z L, Yang C Y. A research on the maximum spectral luminous efficiency [J]. China Illumin. Eng. J.(照明工程学报), 2003, 14(3):1-3 (in Chinese).

CIE No.13-2-1974. Method of measuring and specifying color rendering properties of light sources [S]. International Commission on Illumination, 2010.

Vrady G, Freiding A, Eloholma M, et al. Mesopic visual efficiency Ⅲ:Discrimination threshold measurements [J]. Light. Res. Technol., 2007, 39(1):355-364.

National Standard of the People's Republic of China. Methods of measuring the color of light sources [S]. GB/T 5702-2003, 2003 (in Chinese).

Steigerwald D A, Bhat J C, Collins D, et al. Illumination with solid state lighting technology [J]. IEEE J. Sel. Top. Quant., 2002, 8(2):310-320.

Eloholma M, Viikari M, Halonen L, et al. Mesopic modelsfrom brightness matching to visual performance in night-time driving:A review [J]. Light. Res. Technol., 2005, 37(2):155-175.

Tan L, Liu Y L, Yu F H. Method for the computing of color-rendering index [J]. Opt. Instrum.(光学仪器), 2004, 26(4):41-44 (in Chinese).

Li D S. Comparative experimental study of the color rendering properties of different light sources [J]. China Illumin. Eng. J.(照明工程学报), 2012, 23(5):43-46 (in Chinese).

Cheng W T, Sun Y J, Tong L Q, et al. The method of color quality evaluation of white light LED [J]. China Illumin. Eng. J.(照明工程学报), 2011, 22(3):37-42 (in Chinese).

Zhang Y. Research on Luminous Efficiency Model of Road Lighting Under Mesopic Vision[D]. Hefei:Hefei University of Technology, 2014 (in Chinese).

Helsinki University of Technology. Performance based model for mesopic photometry[R]. MOVE Report, 2005.

Elohola M, Halonen L. New model for mesopic photometry and its application to road lighting [J]. Leukos, 2005, 2(4):263-293.

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