OVTDM技术以及Turbo-OVTDM技术应用在多载波系统中的性能研究
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摘要
移动通信已经成为现代人类社会生活不可或缺的通信方式,人们对现代移动通信系统日趋增长的需求,对系统的性能提出了更高的要求。可靠性和有效性往往是评估无线通信系统性能的两大指标。李道本教授提出的基于重叠复用原理的传输方式,其核心思想是通过信号间的重叠提高系统的谱效率,不仅提高了传输的有效性,同时这种自然的编码约束关系又可以带来潜在的性能增益,兼顾了传输的可靠性,是一种面向未来移动通信的创新技术。
本文正是基于重叠复用原理,对高谱效率的重叠码分复用、重点对高谱效率的重叠时分复用技术的串行级联系统做了进一步的研究:
第一章首先介绍了本文的研究背景,简要概括了移动通信系统的发展情况并介绍了李道本教授提出的重叠复用思想的基本原理,然后是本文主要研究内容的安排;
第二章主要是基于重叠码分复用技术的研究。首先介绍OvCDM的基本模型。然后仿真了配合正交重复编码的OvCDM系统的性能,验证了该方案通过正交重复编码支持多用户无干扰的并行传输且基本不会增加门限信扰比。其次,为了寻找适用于正交复用OvCDM系统方案的高谱效率编码矩阵,重点比较了实验室提出的一种新的通用OvCDM编码矩阵与同谱效率部分已搜索出的OvCDM矩阵的性能。
第三章主要是基于重叠时分复用技术的研究。首先介绍了OvTDM的基本模型。对于李道本教授提出的高谱效率的Pure-OvTDM与Shift-OvTDM的串行级联OvTDM系统的性能进行了仿真验证,并在系统总谱效率不变时,对Pure-OvTDM和Shift-OvTDM两部分的重叠重数比例不同时的性能进行对比,搜索最优的组合方式,且与同谱效率的高阶QAM相比具有较大的性能增益。进一步,仿真了Turbo结构以及Turbo递归迭代结构的串行级联OvTDM系统,结果验证了它们的优良性能。随后将卷积码作为前向纠错码,以进一步提升串行级联OvTDM系统的性能。最后,研究了全升余弦复用波形的串行级联OvTDM系统,以及滤波对系统性能的影响。
第四章主要是研究了重叠时分复用技术配合时频LA码在多载波系统中的性能。对李道本教授提出的时频LA码的非周期自相关和互相关特性进行了验证和分析。在此基础上结合整数码片OvTDM,使单小区多载波系统中的用户间完全不存在干扰。最后提出一种基于时频LA码的多小区组网方案并进行了分析。
Mobile communication has become an indispensable means of communication in modern human society, and the increasing demands put forward higher requirements to the system. Reliability and efficiency are two targets to evaluate the performance of the system. Professor Li has put forward a transmission mode based on the principle of overlapped multiplexing, as an innovative technology oriented to future mobile communication.The core idea is through the overlap between the signals to improve the spectrum efficiency and bring the potential performance gain.
This article is based on the principle of overlapped multiplexing and make further research on OvCDM and OvTDM technology:
The first chapter introduces the research background and summarizes the development of mobile communication system and the principle of overlapped multiplexing, then introduces the main arrangement of this article;
The second chapter is based on the overlapped code division multiplexing technology.First introduce the basic model,then discuss the performance of parallel transmission of orthogonal multiplexing OvCDM system scheme. Secondly, for finding a OvCDM coding matrix of high spectrum efficiency, focus on the OvCDM coding matrix's properties and performance.
The third chapter is based on the overlapped time division multiplexing technology. First introduce the basic model, then construct a Pure-OvTDM and Shift-OvTDM serial cascading system for higher spectral efficiency. Search the optimal combination mode when Pure-OvTDM and Shift-OvTDM has different portion of the spectrum efficiency. Further, introduce the Turbo structure, and recursive Turbo structure to the system, and validate their excellent performance. Then propose a coded serial cascading OvTDM system with the convolutional code to further improve the performance. Finally, have research on the serial cascading OvTDM system of RRC wave.
The fourth chapter combined the overlapped time division multiplexing technology with time-frequency LA codes in multicarrier system.First present a time-frequency LA code and analyze the aperiodic autocorrelation and cross-correlation properties.Combined with the integer-chip-shift OvTDM, there is no interference between the usersin a single cell. Then a new scheme of multi-cell networking based on time-frequency LA code is proposed and analyzed.
本文正是基于重叠复用原理,对高谱效率的重叠码分复用、重点对高谱效率的重叠时分复用技术的串行级联系统做了进一步的研究:
第一章首先介绍了本文的研究背景,简要概括了移动通信系统的发展情况并介绍了李道本教授提出的重叠复用思想的基本原理,然后是本文主要研究内容的安排;
第二章主要是基于重叠码分复用技术的研究。首先介绍OvCDM的基本模型。然后仿真了配合正交重复编码的OvCDM系统的性能,验证了该方案通过正交重复编码支持多用户无干扰的并行传输且基本不会增加门限信扰比。其次,为了寻找适用于正交复用OvCDM系统方案的高谱效率编码矩阵,重点比较了实验室提出的一种新的通用OvCDM编码矩阵与同谱效率部分已搜索出的OvCDM矩阵的性能。
第三章主要是基于重叠时分复用技术的研究。首先介绍了OvTDM的基本模型。对于李道本教授提出的高谱效率的Pure-OvTDM与Shift-OvTDM的串行级联OvTDM系统的性能进行了仿真验证,并在系统总谱效率不变时,对Pure-OvTDM和Shift-OvTDM两部分的重叠重数比例不同时的性能进行对比,搜索最优的组合方式,且与同谱效率的高阶QAM相比具有较大的性能增益。进一步,仿真了Turbo结构以及Turbo递归迭代结构的串行级联OvTDM系统,结果验证了它们的优良性能。随后将卷积码作为前向纠错码,以进一步提升串行级联OvTDM系统的性能。最后,研究了全升余弦复用波形的串行级联OvTDM系统,以及滤波对系统性能的影响。
第四章主要是研究了重叠时分复用技术配合时频LA码在多载波系统中的性能。对李道本教授提出的时频LA码的非周期自相关和互相关特性进行了验证和分析。在此基础上结合整数码片OvTDM,使单小区多载波系统中的用户间完全不存在干扰。最后提出一种基于时频LA码的多小区组网方案并进行了分析。
Mobile communication has become an indispensable means of communication in modern human society, and the increasing demands put forward higher requirements to the system. Reliability and efficiency are two targets to evaluate the performance of the system. Professor Li has put forward a transmission mode based on the principle of overlapped multiplexing, as an innovative technology oriented to future mobile communication.The core idea is through the overlap between the signals to improve the spectrum efficiency and bring the potential performance gain.
This article is based on the principle of overlapped multiplexing and make further research on OvCDM and OvTDM technology:
The first chapter introduces the research background and summarizes the development of mobile communication system and the principle of overlapped multiplexing, then introduces the main arrangement of this article;
The second chapter is based on the overlapped code division multiplexing technology.First introduce the basic model,then discuss the performance of parallel transmission of orthogonal multiplexing OvCDM system scheme. Secondly, for finding a OvCDM coding matrix of high spectrum efficiency, focus on the OvCDM coding matrix's properties and performance.
The third chapter is based on the overlapped time division multiplexing technology. First introduce the basic model, then construct a Pure-OvTDM and Shift-OvTDM serial cascading system for higher spectral efficiency. Search the optimal combination mode when Pure-OvTDM and Shift-OvTDM has different portion of the spectrum efficiency. Further, introduce the Turbo structure, and recursive Turbo structure to the system, and validate their excellent performance. Then propose a coded serial cascading OvTDM system with the convolutional code to further improve the performance. Finally, have research on the serial cascading OvTDM system of RRC wave.
The fourth chapter combined the overlapped time division multiplexing technology with time-frequency LA codes in multicarrier system.First present a time-frequency LA code and analyze the aperiodic autocorrelation and cross-correlation properties.Combined with the integer-chip-shift OvTDM, there is no interference between the usersin a single cell. Then a new scheme of multi-cell networking based on time-frequency LA code is proposed and analyzed.
引文
[1]吴霞.第三代移动通信技术及应用[J].通信与信息技术,2010年03月.pp.57-61.
[2]孙鹏.未来移动通信系统多小区高谱效率传输技术研究[D].北京:北京邮电大学,2012.
[3]要闻国际[J].世界电信,2012年05月.pp.10-11.
[4]吴伟陵,牛凯.移动通信原理[M].电子工业出版社,2007年.pp.1-7.
[5]Proakis, J.Digital Communications,3rd ed. New York:McGraw-Hill,1995.
[6]张晓娜.面向MT-Advanced的分布式预编码技术研究[D].南京:南京邮电大学,2012.
[7]Local and Metropolitan Area Networks-Part 16,Air Interface for Fixed Broad-band Wireless Access Systems,IEEE Standard IEEE 802.16e.
[8]I.E.Telatar, Capacity of multi-antenna Gaussian channels [J]. Eur. Trans. Tele-commun.,vol.l0,Nov.1999.pp.585-595.
[9]张霞.TD-OVCDMA系统的小区间干扰抑制研究及编码的OVTDM系统性能分析[D].北京:北京邮电大学,2011.
[10]廖丽君.宽带无线通信中的SC/FDE技术[J].北京联合大学学报,2005年04期.pp.20-23.
[11]李道本,一种编码复用(多址)编码方法.国际专利,申请号:PCT/CN2007/000536.
[12]J.G.Prokis, Digital communication,4thed. New York:McGraw Hill,2001.
[13]G.D.Forney, Jr, Maximum-likelihood sequence estimation of digital sequence in the presence of intersymbol interference, IEEE Trans.on Inf.Theory, vol.IT-18, No.5, May,1972.
[14]李道本,一种时间分割复用方法和系统.国际专利,申请号:CT/CN2006/001585
[15]李道本.信号的统计检测与估计理论.北京:科学出版社,2004.
[16]李道本.第三章.超越仙侬界的OvTDM编码.道本实验室内部资料,2013.
[17]李道本.第十二章.独立信源的独立并联信道(修订本).道本实验室内部资料,2012.
[18]李道本.一种编码复用和多址传输方法.中国.WO 2008/098417A1.
[19]李道本.重叠编码复用OVCDM与重叠编码多址OVCDMA概论.道本实验室,2008.
[20]王键.超高谱效率并行传输重叠码分复用若干关键技术研究[学位论文].北京: 北京邮电大学,2008.
[21]戴维琴.递归重叠时分复用技术研究.[学位论文].北京:北京邮电大学,2011.
[22]]王雪松.未来移动通信关键技术研究.[学位论文].北京:北京邮电大学,2011.
[23]Berrou C, Glavieux A, Thitimajshima P. Near Shannon limit error-correcting coding and decoding:Turbo-codes.1 [C]. In Communications,1993. ICC 93. Geneva. Technical Program, ConferenceRecord, IEEE International Conference on,1993:1064-1070.
[24]宽带OFDM系统的干扰协调技术.郑侃.现代电信科技.2007年06期.
[25]廖汉程,李道本LAS-CDMA系统及其性能.电子测量与仪器学报.2005年.
[26]李道本LAS-CDMA在3G及后3G中的应用前景[J].移动通信.2003.27(7)
[27]刘兵朝.独立信源的独立并联信道研究报告.道本实验室内部资料.2012.
[28]Li Daoben. The perspectives of large area synchronous CDMA technology for the fourth-generation mobile radio [J].IEEE Communications Magazine,2003, 114-118.
[29]S Moshavi.Multi User Detection for DS-CDMA Communication [J]. Commu-nications magazine, IEEE. Oct,1996.
[30]朱松俭,朱玉颖.基于宽带CDMA的多用户检测技术[J].西南科技大学学报.2003年02期.
[31]ITU-R.M.2135-1.Guidelines for Evaluation of Radio Interface Technologies for IMT-Advanced[S].ITU,2009.
[32]Huawei, Rl-050507. Soft Frequency Reuse Scheme for UTRAN LTE[S].3GPP TSG RAN WGl Meeting#41,2005.
[33]李道本.配合时间平均的预编码.北京.道本实验室内部资料.2012.5.
[2]孙鹏.未来移动通信系统多小区高谱效率传输技术研究[D].北京:北京邮电大学,2012.
[3]要闻国际[J].世界电信,2012年05月.pp.10-11.
[4]吴伟陵,牛凯.移动通信原理[M].电子工业出版社,2007年.pp.1-7.
[5]Proakis, J.Digital Communications,3rd ed. New York:McGraw-Hill,1995.
[6]张晓娜.面向MT-Advanced的分布式预编码技术研究[D].南京:南京邮电大学,2012.
[7]Local and Metropolitan Area Networks-Part 16,Air Interface for Fixed Broad-band Wireless Access Systems,IEEE Standard IEEE 802.16e.
[8]I.E.Telatar, Capacity of multi-antenna Gaussian channels [J]. Eur. Trans. Tele-commun.,vol.l0,Nov.1999.pp.585-595.
[9]张霞.TD-OVCDMA系统的小区间干扰抑制研究及编码的OVTDM系统性能分析[D].北京:北京邮电大学,2011.
[10]廖丽君.宽带无线通信中的SC/FDE技术[J].北京联合大学学报,2005年04期.pp.20-23.
[11]李道本,一种编码复用(多址)编码方法.国际专利,申请号:PCT/CN2007/000536.
[12]J.G.Prokis, Digital communication,4thed. New York:McGraw Hill,2001.
[13]G.D.Forney, Jr, Maximum-likelihood sequence estimation of digital sequence in the presence of intersymbol interference, IEEE Trans.on Inf.Theory, vol.IT-18, No.5, May,1972.
[14]李道本,一种时间分割复用方法和系统.国际专利,申请号:CT/CN2006/001585
[15]李道本.信号的统计检测与估计理论.北京:科学出版社,2004.
[16]李道本.第三章.超越仙侬界的OvTDM编码.道本实验室内部资料,2013.
[17]李道本.第十二章.独立信源的独立并联信道(修订本).道本实验室内部资料,2012.
[18]李道本.一种编码复用和多址传输方法.中国.WO 2008/098417A1.
[19]李道本.重叠编码复用OVCDM与重叠编码多址OVCDMA概论.道本实验室,2008.
[20]王键.超高谱效率并行传输重叠码分复用若干关键技术研究[学位论文].北京: 北京邮电大学,2008.
[21]戴维琴.递归重叠时分复用技术研究.[学位论文].北京:北京邮电大学,2011.
[22]]王雪松.未来移动通信关键技术研究.[学位论文].北京:北京邮电大学,2011.
[23]Berrou C, Glavieux A, Thitimajshima P. Near Shannon limit error-correcting coding and decoding:Turbo-codes.1 [C]. In Communications,1993. ICC 93. Geneva. Technical Program, ConferenceRecord, IEEE International Conference on,1993:1064-1070.
[24]宽带OFDM系统的干扰协调技术.郑侃.现代电信科技.2007年06期.
[25]廖汉程,李道本LAS-CDMA系统及其性能.电子测量与仪器学报.2005年.
[26]李道本LAS-CDMA在3G及后3G中的应用前景[J].移动通信.2003.27(7)
[27]刘兵朝.独立信源的独立并联信道研究报告.道本实验室内部资料.2012.
[28]Li Daoben. The perspectives of large area synchronous CDMA technology for the fourth-generation mobile radio [J].IEEE Communications Magazine,2003, 114-118.
[29]S Moshavi.Multi User Detection for DS-CDMA Communication [J]. Commu-nications magazine, IEEE. Oct,1996.
[30]朱松俭,朱玉颖.基于宽带CDMA的多用户检测技术[J].西南科技大学学报.2003年02期.
[31]ITU-R.M.2135-1.Guidelines for Evaluation of Radio Interface Technologies for IMT-Advanced[S].ITU,2009.
[32]Huawei, Rl-050507. Soft Frequency Reuse Scheme for UTRAN LTE[S].3GPP TSG RAN WGl Meeting#41,2005.
[33]李道本.配合时间平均的预编码.北京.道本实验室内部资料.2012.5.