无线激光通信类脉冲位置调制性能比较

柯熙政; 陈锦妮

doi:10.3969/j.issn.1001-3806.2012.01.018

无线激光通信类脉冲位置调制性能比较

1.
西安理工大学自动化与信息工程学院, 西安 710048

作者简介: 柯熙政(1962- ),男,博士,博士生导师,主要从事人气激光通信与信号处理方而的研究.E-mail:xzke@263.net.

基金项目:
国家自然科学基金资助项目(60977054)
中图分类号: TN929.1

Performance comparison of various pulse position modulation in wireless laser communication

1.
School of Automation and Information Engineering, Xi'an University of Technology, Xi'an 710048, China
CLC number: TN929.1

摘要: 为了比较各种类脉冲位置调制性能,对类脉冲位置调制的编码结构、平均发射功率、带宽需求、传信率、功率谱密度、信道容量等进行了比较,分析了其性能特点及使用场合.结果表明,开关键控调制方式容易实现,但功率利用率低;脉冲位置调制方式提高了功率利用率,但是带宽效率差,同时需要符号同步;数字脉冲间隔调制结构复杂,缩短了符号长度,带宽效率高,不需要符号同步;双头脉冲间隔调制方式提高了带宽效率和传输容量,不需要符号同步,大大简化系统实现复杂度.
- 光通信 /
- 无线激光通信 /
- 类脉冲位置调制 /
- 脉冲位置调制 /
- 差分脉冲位置调制 /
- 多脉冲位置调制
Abstract: In order to compare the performance of various types of pulse position modulation,the coding structure,average transmitted power,bandwidth requirements,transmission rate,power spectral density and channel capacity were compared.Their characteristics and application fields were analyzed.The results show that,on off keying is easy to implement,but power utilization ratio is too low;pulse position modulation improves power utilization ratio but bandwidth availability ratio is low and it need symbol synchronization;digital pulse interval modulation shortens the length of the symbols,it has high bandwidth availability ratio and does not need symbol synchronization,but it is too complex;dual header pulse interval modulation improves the bandwidth efficiency and transmission capacity and do not need symbol synchronization,greatly simplify the complexity of the system implementation.
- optical communication /
- optical wireless communication /
- class of pulse position modulation /
- pulse position modulation /
- differential pulse position modulation /
- multipulse position modulation

[1]	KAHN J M,BARRY J R.Wireless infrared communications[J].Proceedings of IEEE,1997,85(2):265-298.
[2]	PIERCE J R.Optical channels:practical limits with photon counting[J].IEEE Transactions on Communications,1978,26(12):1819-1821.
[3]	DING D Q,KE X Zh.Design of PPM for laser communication in atmosphere[J].Optical Communication Technology,2005,29(1):50-52(in Chinese).
[4]	KE X Zh,ZHAO L,DING D Q.The achievement of time-slot and frame synchronization in atmosphere laser communication[J].Semiconductor Optoelectronics,2007,28(5):721-724(in Chinese).
[5]	KE X Zh,ZHAO L.PPM synchronizer of FSO communication system:China,ZL200720031908.4[P].2008.05-28(in Chinese).
[6]	ZOU Ch Y,AO F L,HUANG X F.Analysis of optical PPM channel capacity without background noise[J].Journal of Electronics & Information Technology,2000,22(4):682-686(in Chinese).
[7]	ZOU Ch Y,AO F L,ZHANG D K.Maximum-likelihood block and frame synchronization for optical OPPM communication[J].Journal of China Institute of Communications,1999,20 (s1):127-133 (in Chinese).
[8]	SUGIYAMA H,NOSU K.MPPM:a method for improving the bandutilization efficiency in optical PPM[J].IEEE Journal of Ligthwave Technology,1989,7(3):465-472.
[9]	SATO K,OHTSUKI T,SASASE I,et al.Performance analysis of (m,2) MPPM with imperfect slot synchronization[C]//IEEE Pacific Rim Conference on Communications,Computers and Signal Processing 1993.Victoria,USA:IEEE,1993:765-768.
[10]	HOSSAM M,SHALABY H.Maximum achievable throughputs for uncoded OPPM and MPPM in optical direct-detection channels[J].Journal of Lightwave Technology,1995,13 (11):2121-2128.
[11]	LIU S Y,KSCHISCHANG F R.Coding for MPPM-like systems[C]//25th Biennial Symposium on Communications (QBSC).Kingston,USA:IEEE,2010:365-368.
[12]	QIN L,KE X Zh.A study of mapping scheme for dual-pulse MPPM[J].Journal of Xi'an University of Technology,2007,23 (3):268-272 (in Chinese).
[13]	QIN L,DU Y X,KE X Zh.Implementation of coding and decoding system for three-pulse MPPM in atmosphere laser communication[J].Semiconductor Optoelectronics,2008,29 (3):403-433 (in Chinese).
[14]	QIN L,KE X Zh.Analysis of optical MPPM channel capacity without background noise[J].Opto-Electronic Engineering,2007,22(7):107-110 (in Chinese).
[15]	SHIU D Sh,KAHN J M.Differential pulse-position modulation for power-efficient optical communication[J].IEEE Transactions on Communication,1999,47(8):1201-1210.
[16]	ASANO M,OHTSUKI T,UEHARA H,et al.A novel frame synchronization rule for optical DPPM systems with restriction of frame length[C]//IEEE Global Telecommunications Conference (GLOBECOM'96).London,UK:IEEE,1996:923-927.
[17]	ZHAO L,KE X Zh,LIU J.Research on differential pulse-position modulation in optical wireless communication[J].Laser Journal,2007,28(2):63-64 (in Chinese).
[18]	GHASSEMLOOY Z,HAYES A R,SEED N L.Digital pulse interval modulation for optical comminications[J].IEEE Communications Magazine,1998,36(12):95-99.
[19]	ALDIBBIAT N,GHASSEMLOOY Z,SAATCHI R.Pulse interval modulation-dual header PIM-DH[C]//2nd International Conference on Information,Communications and Signal Processing 1999.Singapore:Nanyang Technological University,1999:1-5.
[20]	ZHANG K,ZHANG H T,GONG M L,et al.Performance of dualamplitude pulse interval modulation for wireless infrared communication[J].Journal Infrared Millimeter and Waves,2003,22(6):411-414.
[21]	SETHAKASET U,GULLIVER T A.Differential amplitude pulseposition modulation for indoor wireless optical channels[C]//Global Telecommunications Conference,2004,IEEE.Dalls,USA:IEEE,2004:1867-1871.
[22]	WANGH X,ZHU Y B,ZHANG T Y,et al.Performance study of modulation for optical wireless communication[J].laser & Optoelectronics Progress,2006(6):37-39(in Chinese).
[23]	WANG H X,ZHANG T Y,ZHU Y B,et al.Study on modulation mode for free space optics communicaion[J].Radio Communications Technology,2006,32(6):13-15 (in Chinese).
[24]	KE X Zh,CHEN J,YANG Q.Research of RS codes over GF(17)-field in atmospheric laser communication system[J].Laser Technology,2011,35(1):47-50(in Chinese).
[25]	ZHANG T Y,WANG H X,CHENG G.A novel fixed length digital pulse interval modulation for optical wireless communications[J].Chinese Journal of Lasers,2007,34 (12):1657-1659 (in Chinese).
[26]	AUDIBBIAT N M,GHASSEMLOOY Z,MCLAUGHHN R.Error performance of dual header pulse interval modulation (DH-PIM) in optical wireless communications[J].IEE Proceeding Part J,Optoelectronics,2001,148(2):91-96.

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无线激光通信类脉冲位置调制性能比较

作者简介: 柯熙政(1962- ),男,博士,博士生导师,主要从事人气激光通信与信号处理方而的研究.E-mail:xzke@263.net.

Performance comparison of various pulse position modulation in wireless laser communication

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无线激光通信类脉冲位置调制性能比较

作者简介: 柯熙政(1962- ),男,博士,博士生导师,主要从事人气激光通信与信号处理方而的研究.E-mail:xzke@263.net

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Performance comparison of various pulse position modulation in wireless laser communication

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无线激光通信类脉冲位置调制性能比较

作者简介: 柯熙政(1962- ),男,博士,博士生导师,主要从事人气激光通信与信号处理方而的研究.E-mail:xzke@263.net.

Performance comparison of various pulse position modulation in wireless laser communication

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无线激光通信类脉冲位置调制性能比较

作者简介: 柯熙政(1962- ),男,博士,博士生导师,主要从事人气激光通信与信号处理方而的研究.E-mail:xzke@263.net

English Abstract

Performance comparison of various pulse position modulation in wireless laser communication

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目录