可见光通信设备关键检测指标体系研究
作者:蒋晨杰1, 刘桂雄1, 吴嘉健1, 陈长缨2, 龙阳3 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. 暨南大学光电工程系, 广东 广州 510632;
3. 广州广电计量检测股份有限公司, 广东 广州 510656 发布时间:2018-09-27 15:48:15 点击数:118

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关键词:可见光通信;检测指标体系;调制性能;接收性能;抗杂光性能
摘要:

可见光通信(visible light communication,VLC)设备是当前的研究热点,但缺乏对其检测的性能指标与相关仪器、标准。该文从一般VLC设备工作机理出发,分析指出VLC设备必须具有发射调制性能、抗杂光性能、接收性能等方面性能评价需求,相应地提出用调制带宽、带内平坦度、直流杂光抵抗比、频闪杂光抵抗比、最小接收照度值、最大接收照度值作为其具体的评价指标体系,并介绍这些指标的定义、物理意义以及检测方法。该评价指标体系具有全面性、实用性,可为VLC设备检测装置研制与标准制定奠定一定的基础。

Research on key detection indicators system for visible light communication equipment

JIANG Chenjie1, LIU Guixiong1, WU Jiajian1, CHEN Changying2, LONG Yang3

1. School of Mechanical and Automotive Engineering, South China University of Technology, Guangzhou 510640, China;
2. Department of Photoelectric Engineering, Ji'nan University, Guangzhou 510632, China;
3. Guangzhou GRG Metrology & Test, Guangzhou 510656, China

Abstract: Visible light communication(VLC) equipment is a research hotspot at present, but it lacks of detection indicators and related instruments and standards. Based on the working of general VLC equipment, this paper points out that it must contain performance evaluation requirements such as modulation performance, anti stray light performance and receiving performance. Correspondingly, the modulation bandwidth, in-band flatness, anti DC stray light ratio, anti stroboscopic stray light ratio, minimum and maximum received value of illuminance are proposed as the specific detection indicators system. This paper also introduces the definitions, physical meanings and detection methods of these indicators. The detection indicators system is comprehensive and practical, and lays a certain foundation for the development and standard setting of VLC equipment testing device.

Keywords: visible light communication;detection indicators system;modulation performance;receiving performance;anti stray light performance

2018, 44(9): 9-12  收稿日期: 2018-07-20;收到修改稿日期: 2018-08-15

基金项目: 广州市科技计划项目(201604046005)

作者简介: 蒋晨杰(1994-),男,江苏常州市人,硕士研究生,专业方向为光机电集成与装备

参考文献

[1] GROBE L, PARASKEVOPOULOS A, HILT J, et al. High-speed visible light communication systems[J]. IEEE Communications Magazine, 2013, 51(12):60-66
[2] MARSHOUD H, MUHAIDAT S, SOFOTASIOS P C, et al. Optical non-orthogonal multiple access for visible light communication[J]. IEEE Wireless Communications, 2018, 25(2):82-88
[3] WANG Q, WANG Z, DAI L, et al. Dimmable visible light communications based on multilayer ACO-OFDM[J]. IEEE Photonics Journal, 2016, 8(3):1-11
[4] WANG Q, QIAN C, GUO X, et al. Layered ACO-OFDM for intensity-modulated direct-detection optical wireless transmission[J]. Optics Express, 2015, 23(9):12382
[5] MOUSA F, ALMAADEED N, BUSAWON K, et al. Indoor visible light communication localization system utilizing received signal strength indication technique and trilateration method[J]. Optical Engineering, 2018, 57(1):11
[6] JEROME K, TONY V, VINAYAK R, et al. Indoor navigation using visible light communication[C]//2014 Texas Instruments India Educators' Conference (TⅡEC), 2017.
[7] DAHRI F A, MANGRIO H B, BAQAI A, et al. Experimental evaluation of intelligent transport system with VLC vehicle-to-vehicle communication[J]. Wireless Personal Communications, 2018(1):1-12
[8] 蔡少阳, 陈力, 王卫东. 一种用于可见光通信的自适应OFDM系统设计与实验[J]. 中国科学院大学学报, 2018, 35(1):137-143
[9] 陈怡, 张志义, 包宇刚. 适用于照明和可见光通信的宽输入电压范围的分段式LED驱动电路[J]. 电工技术学报, 2018, 33(12):2812-2820
[10] 秦岭, 巨永锋, 杜永兴, 等. 智能交通中新型可见光通信系统性能研究[J]. 公路交通科技, 2016, 33(7):114-118
[11] ELAMASSIE M, UYSAL M. Performance characterization of vertical underwater VLC links in the presence of turbulence[C]//IEEE International Symposium on Communication Systems Networks & Digital Signal Processing, 2018.
[12] 刘桂雄, 蒋晨杰, 王佳胜, 等. 一种可测量VLC装备发射调制性能的检测装置:201721847429.X[P]. 2018-07-03.
[13] 郭雪梅, 王佳胜, 刘桂雄, 等. 一种可见光通信设备发射调制性能测量装置及方法:201711436486.3[P]. 2018-05-15.
[14] 郭雪梅, 刘桂雄, 吴嘉健, 等. 一种可见光通信设备抗杂光性能的分析装置:201721849665.5[P]. 2018-07-06.
[15] 刘桂雄, 吴嘉健, 张沛强, 等. 一种可测量VLC装备抗杂光性能的检测装置:201721847422.8[P]. 2018-07-03.
[16] 刘桂雄, 吴嘉健, 郭雪梅, 等. 一种可见光通信设备抗杂光干扰性能测量装置及方法:201711437505.4[P]. 2018-04-03.
[17] 曾昕, 龙阳, 刘桂雄, 等. 一种可见光通信设备接收性能的分析装置:201721847772.4[P]. 2018-07-03.
[18] 郭雪梅, 陈长缨, 刘桂雄, 等. 一种可测量VLC装备接收性能的检测装置:201721858922.1[P]. 2018-07-17.
[19] 曾昕, 龙阳, 张沛强, 等. 一种可见光通信设备接收性能测量装置及方法:201711442117.5[P]. 2018-06-29.

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