作者:余中泼1, 刘桂雄1, 陈晓曼2, 万泉2
作者单位:1. 华南理工大学机械与汽车工程学院, 广东 广州 510640;
2. 广州质量监督检测研究院, 广东 广州 511442
关键词:道路照度;车载平台;自动检测;LED
摘要:
道路照明采用LED路灯导致照度降低,影响道路交通安全,研究基于自动车载平台的LED路灯路面照度检测系统,加强LED照明产品监督与检测技术。该系统检测流程根据国标制定,由自动检测装置与监控中心两部分组成,其中自动检测装置通过传感器感知照度值、距离值、角度值、路程值,角度值、路程值分别用于控制智能车直线行驶、定点定位,照度值通过ZigBee无线远程传输。通过与人工检测对比实验,结果表明:该系统较目前照度检测技术有高效率、低成本、高准确度等优点。
The development of LED road illumination automatic detection system
YU Zhongpo1, LIU Guixiong1, CHEN Xiaoman2, WAN Quan2
1. School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou 510640, China;
2. Guangzhou Quality Supervision and Inspection Institute, Guangzhou 511442, China
Abstract: Road lighting using LED results in the decrease of illumination, which throws out a challenge to road traffic accidents. This paper studies based on vehicular platform of the development of LED road illumination automatic detection system. It strengthens the supervision and detection technology of LED lighting products. The system testing process is set by according to the national standard which consists of two parts, automatic detection device and the monitoring center. The automatic detection device detects the illuminance value, distance value and angle value through the sensors. The angle and distance values are used to control the smart car in a straight line to move to the fixed position. The illuminance value is remotely transferred by Zigbee wireless technique. Compared with manual testing experiment, the results show that the system has the advantages of high efficiency, low cost and high precision.
Keywords: road lighting;vehicular platform;automatic detection;LED
2016, 42(9): 88-91 收稿日期: 2015-10-18;收到修改稿日期: 2015-12-20
基金项目: 广东省质量技术监督局科技项目(2014ZZ05)
作者简介: 余中泼(1990-),男,浙江温州市人,硕士研究生,研究方向为测控系统集成技术与应用。
参考文献
[1] 黄珂. 道路照明测量方法研究[D]. 重庆:重庆大学,2006.
[2] 赵宁. LED照明的杂散光分析与散热研究[J]. 中国测试,2013,39(6):32-35.
[3] YIN J, QIU Y F, LIU Q, et al. Design of light guide plate for large-size LED slim light box[J]. Laser & Optoelectronics Progress,2010(12):38-42.
[4] 胡英奎,张青文,陈仲林,等. 机动车交通道路LED路灯照明效果实测[J]. 灯与照明,2013(1):34-37.
[5] 张青文,李毅,胡英奎,等. 一种检测道路照明质量的新方法——停车视距法[J]. 灯与照明,2013(3):8-12.
[6] 汪立文,万蕴杰,唐小军,等. 普通照明用LED模块光色性能测试方法的研究[J]. 中国测试,2012,39(2):52-55.
[7] 王巍,惠昭,殷骏,等. 基于改进型四点法的LED路灯道路照明测试[J]. 天津工业大学学报,2012(4):50-53.
[8] 阚子雄,王巧彬,任豪,等. LED灯具道路照明效果模拟与分析[J]. 应用光学,2012(2):374-379.
[9] A mobile laboratory for dynamic road lighting measurement[J]. Green and R.A. Hargroves Lighting Research and Technology,979(11):197.
[10] ZHOU H G, PIRINCCIOGLU F, PETER H. A new roadway lighting measurement system[J]. Transportation Research Part,2009(17):274-284.
[11] WILKEN D. European road lighting technologies[M].DIANE Publishing,2001:79.
[12] TOMCZUK P. Exploitation research of tram's head lighting-low beam lights[J]. Archives of Transport,2010,22(4):477-494.
[13] CASOL M, FIORENTIN P, SCROCARO A. On road measurements of the luminance coefficient of paving[C]//16th IMEKO TC4 Symposium:Exploring New Frontiers of Instrumentation and Methods for Electrical and Electronic Measurements Florence Italy,2008.
[14] 李必涛,杨乔,邱橘,等. 室内照度积分计算方法的改进[J]. 自动化与信息工程,2012(1):1-3.
[15] 照明测量方法:GB/T 5700-2008[S]. 北京:中国标准出版社,2008.
