变换域通信系统设计、建模与仿真研究
摘要
本文主要研究了一种新型通信系统——变换域通信系统(TDCS)。国外对TDCS的研究已有数年的历史,在我国还尚未开展这方面的研究,本文是第一篇关于TDCS的研究论文。TDCS与传统通信系统的不同点是,首先TDCS通过信道估计在变换域设计信号波形,其次TDCS没有采用载波调制,而是用一个类似噪声的基函数进行信息调制。TDCS具有很强的抗干扰能力和较高的LPI(低截获概率)特性。本文首先介绍了TDCS的基本理论,分析和研究了TDCS的主要算法。为了有效的进行研究工作,开发了变换域通信系统动态和静态仿真平台以及TDCS—CDMA仿真平台。基于仿真平台,对比研究了基于FFT和基于DWT的TDCS的系统性能。针对目前TDCS理论不完善的特点,从理论上对TDCS做了一定的分析:具体分析证明了TDCS具有多址能力,推导出了TDCS在多址环境下的误码率公式,并在仿真试验中进行了验证;首次分析了收发端基函数不一致情况下TDCS的性能,给出了在此情况下的误码率公式,并在仿真实验中给以验证;初步分析了TDCS在多径传播环境下的性能;此外还对采用不同调制技术的TDCS做了仿真研究。本文的工作开创了国内有关TDCS的研究工作,部分研究结果与目前TDCS的研究结果相比较有新的发展,所完成的工作为今后对TDCS进一步的研究打下了良好的基础。
In this paper, a new communication system-Transform Domain Communication System (TDCS) is researched. TDCS is a developmental system that has demonstrated interference avoidance capability. It is different from traditional communication systems at two points: 1) the communication waveform is designed in transform domain (frequency or scale) according to the estimation of electromagnetic environment, 2) no carrier modulation is employed, but a noise-like basis function is used to modulate the data. The work of the thesis is as follows. First, the basic theory of TDCS is introduced and the principal algorithms about TDCS are analyzed. A simulation platform including dynamic and static is designed in order to research the characteristics of TDCS. Two kinds of TDCS respectively based on FFT and DWT are studied using the platforms. A TDCS-CDMA simulation platform are also completed for researching the ability of multiple access and a formula about bit error rate (BER) of multiple access is proved. The performances of TDCS in the case of transmitter and receiver with different basis function are also analyzed and a formula as a result is presented. Additionally the performances of TDCS about multipath are simply discussed. The modulation technique is also investigated in this paper. Finally a large amounts of simulation experiments support above All research works . This paper is the exploring research of TDCS. The results having obtained in this paper provid a strong groundwork for the future research work of TDCS.
In this paper, a new communication system-Transform Domain Communication System (TDCS) is researched. TDCS is a developmental system that has demonstrated interference avoidance capability. It is different from traditional communication systems at two points: 1) the communication waveform is designed in transform domain (frequency or scale) according to the estimation of electromagnetic environment, 2) no carrier modulation is employed, but a noise-like basis function is used to modulate the data. The work of the thesis is as follows. First, the basic theory of TDCS is introduced and the principal algorithms about TDCS are analyzed. A simulation platform including dynamic and static is designed in order to research the characteristics of TDCS. Two kinds of TDCS respectively based on FFT and DWT are studied using the platforms. A TDCS-CDMA simulation platform are also completed for researching the ability of multiple access and a formula about bit error rate (BER) of multiple access is proved. The performances of TDCS in the case of transmitter and receiver with different basis function are also analyzed and a formula as a result is presented. Additionally the performances of TDCS about multipath are simply discussed. The modulation technique is also investigated in this paper. Finally a large amounts of simulation experiments support above All research works . This paper is the exploring research of TDCS. The results having obtained in this paper provid a strong groundwork for the future research work of TDCS.
引文
[1] H V Poor. Active interference suppression in cdma overlay[J]. IEEE J. Select. Areas Comm. vol. 19, pp.4-20, Jan 2001.
[2] 张贤达,保铮.通信信号处理[M].北京:国防工业出版社,2000.
[3] M L Roberts, M A Temple, R A Raines, and E P Magee. Initial acquisition performance of a transform domain communication system: modeling and simulation results[C]. Proc. of IEEE MILCOM'00, October 2000.
[4] R W Klein, M A Temple, R L Claypoole, R A Raines, and J P Stephens. Performance characterization of a proposed wavelet domain communication (WDCS) [C], 5th World Multi-Conference on Systemics, Cybernetics and Informatics, SCI'01, July 2001.
[5] James B Y Tsui, James P Stephens. Digital microwave receiver technology[J]. IEEE Trans. Microwave theory and Techniques, Vol. 50, No. 3. March 2002.
[6] Marion J. Lee, Michael A. Temple, Roger L. Claypoole, Richard A. Raines Transform Domain Communications And Interference Avoidance Using Wavelet Packet Decomosition IEEE 2002
[7] Richard S Orr. Wavelet transform domain communication systems[C]. SPIE proceeding Vol. 2491.
[8] Richard S Orr, Cameron Pike, Margaret L. Bates. Multiple Access Communications Using Wavelet Technology [C] SPIE proceeding Vol. 2491.
[9] R. W. Klein, M. A. Temple, R. A. Raines and R. L. Claypoole. Jr. Intreference avoidance communications using wavelet domain transformation techniques IEEE J. Electronics Letters 19th July 2001 Vol.37 No.15.
[10] Partric J. Swackhammer Michael A. Temple, Richard A. Raines. Performance simulation of a transform domain communication system for multiple access applications[C] Proc. of IEEE MIL COM'99, October 1999.
[11] Proakis John G. Digital Communication[M], Third Edition, McGraw-Hill Inc., 1995.
[12] Rodger E Ziemer, Roger L Peterson. Digital Communications and Spread Spectrum Systems. Macmillan Inc., 1985.
[13] 曹志刚,钱亚生,现代通信原理[M],北京:清华大学出版社,1993。
[14] 沈振元,聂志泉,赵雪荷,通信系统原理[M],西安:西安电子科技大学出版社,1995。
[15] 朱近康,扩展频谱通信及其应用[M],合肥,中国科学技术大学出版社,1993。
[16] Theodore S.Rappaport,无线通信原理与应用[M],北京,电子工业出版社,2000。
[17] 朱华,黄辉宁,李永庆,梅文博,随机信号分析[M],北京,北京理工大学出版社1995。
[18] Tero Ojanpera,Rmajee Prasad 宽带 CDMA:第三代移动通信技术[M] 北京 人民邮电出版社 2001。
[19] 胡广书, 数字信号处理-理论、算法与实现[M],北京 清华大学出版社 1997。
[20] 赵松年,熊小云,子波变换与子波分析[M],北京 电子工业出版社 1997
[21] 佟学检,乐光新,“DS-CDMA 与 MC-CDMA 通信系统的比较”,移动通信 2000年第六期。
[22] 王强,孙锦涛,谢仁宏“OFDM 技术在短波数据通信中的应用”,通信技术 2001年第1期。
[23] 李红平,刘明庆,李建军,“短波全数字自适应调频通信”,现代通信 200年第12期。
[24] 郭经红,张官元“多径信道的最佳小波波形”,电子学报,2002年第4期。
[25] 王立宁,欧阳聪星,佟学检,乐光新,“多址干扰对直扩多载波 CDMA 捕获性能的影响”,北京邮电大学学报,2000年9月。
[26] 袁超伟,杨英“基于最佳小波包基的多载波 CDMA”,北京邮电大学学报,2001年9月。
[27] 黎海涛,张靖,“无线 OFDM 技术”电信科学,2002年第4期。
[28] 张磊,潘泉,张洪才,戴冠中,“小波域滤波阈值参数 c 的选取”,电子学报,2001年3月。
[29] 俞世荣,“自适应调频通信及其抗干扰性能”,通信技术,1999年第2期。
[30] 窦怀宇,毕光国‘最佳小波包多载波调制解调技术’通信学报,2000年6月。
[31] 赵亚红,李伟华,吴伟陵‘正交多载波调制(OFDM)技术及其应用’电讯技术 2001年第1期。
[32] 徐娟,覃团发,“DS-CDMA 通信系统仿真研究”,上海铁道大学学报,2000年4月。
[33] 宋铁成,尤肖虎,沈连丰,“OFDM 技术应用于 Beyond 3G 的仿真研究”,通信技,术,2002年第3期
[34] 杨世海,周良柱,“基于 MATLAB 的 CDMA 无线通信可视化仿真”,系统仿真学报,2001年1月
[35] 马惠明,王德苗,“WCDMA 数字基带算法仿真平台”,系统仿真学报,第十四卷第十二期,2002年12月。
[36] Tao Luo, Subbarayan Pasupathy. "Interference Control and Chip Waveform Design in Multirate DS-CDMA Communication systems", IEEE TRANSACTIONS ON WIRELESS
COMMUNICATIONS, VOL. 1, NO. 1, JANUARY 2002.
[37] 赵瑞珍,屈汉章,“基于小波系数区域相关性的阈值算法”,西安电子科技大学学报,第28卷第3期,2001年6月。
[38] 张骏凌,苏莉等,“多载波 CDMA 中变换域自适应滤波抑制窄带干扰”,系统工程与电子技术,第二十三卷第十一期,2001年。
[39] 王安义,张林让,“一种消除 CDMA 系统多址干扰和码片间干扰的空时处理技术”,西安电子科技大学学报(自然科学版),第28卷第一期,2001年2月。
[40] Wen-Sheng Hou, Li-Mei. "Adaptive Narrowband Interference Rejection in DS-CDMA System: A Scheme of Parallel Interference Cancellers", IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL.19, NO.6, JUNE 2001.
[41] 王庆禹,褚福磊,“小波变换中的能量泄露问题”,机械科学与技术,第二十卷第一期,2001年1月。
[42] 王文杰,蒋伯峰,“非周期扩频系统中频率域多径时延估计”,西安交通大学学报,第35卷第4期,2001年4月。
[43] 王世练,路军,“DS/FH 中窄带干扰的变换域处理方法研究”,国防科技大学学报,第23卷第4期,Vol.23 No.4.2001年。
[44] 胡明友,谢恒,“基于小波变换抑制局部放电监测中平稳性干扰的滤波器的研究”,中国电机工程学报 000110,2000年。
[45] 李冲泥,胡光锐等。“变换域自适应滤波技术在扩频通信抗窄带干扰中的应用”,上海交通大学学报 000206,2000 Vol.34 No.2.
[46] Ravi Narasimhan, Donald C. Cox. "Wavelet-Based Estimation of the Nonstationary Mean Signal in Wireless Systerms", IEEE JOURNAL ON SELECTED AREASIN COMMUNICATIONS. VOL. 18, NO, 11, NOVEMBER, 2000.
[47] Michael B. Matthews. "On the Linear Minimum-Mean-Squared-Error Estimation of an Undersampled Wide-Sense Stationary Random Process", IEEE, 2000.
[48] Catharina Carlemalm, H. Vincent Poor, "Suppression of Multiple Narrowband Interferers in a Spread-Spectrum Communication System", IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 18, NO. 8, AUGUST 2000.
[49] Savo G. Glisic, Zorica B. Nikolic. "Performance Enhancement of DSSS Systems." Two-Dimensional Interference Suppression", IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 47, NO. 10, OCTOBER 1999.
[50] 胡爱群,雷静,“扩频通信中大功率窄带干扰抑制的一种频域自适应算法”,东南大学学报,第29卷第4期,1999年7月。
[51] 杨尉民,毕光国,“基于自适应小波包变换的直接序列扩频通信窄带干扰抑制技
术”。通信学报第二十卷第七期,1999年7月。
[52] Yifeng Zhang and Jeffrey Dill."An Anti-Jamming Algorithm using Wavelet Packet Modulated Spread Specturm", IEEE, 1999.
[53] Michael J.Medley,Gary J.Saulnier."Narrow-Band Interference Excision in Spread Spectrum Systems Using Lapped Transforms" , IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 45, NO. 11, NOVEMBER 1997.
[54] Michael J. Medley . "TRANSFORM DOMAIN LMS CONVERGENCE IN TONE INTERFERENCE',IEEE MILCOM '97, October 1997.
[55] Timo J. Kumpumaki, Matti A. Isohookana. "NARROW-BAND INTERFERENCE REJECTION USING TRANSFORM DOMAIN SIGNAL PROCESSING IN A HYBRID DS/FH SPREAD-SPECTRUM SYSTEM', IEEE MILCOM'97, October 1997.
[56] Michael A.Soderstrand,Thomas G.Johnson."Suppression of Multiple Narrow-band Interference Using Real-time Adaptive Notch Filter", IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS-II:ANALOG AND DIGITAL SIGNAL PROCESSING, VOL. 44, NO. 3, MARCH 1997.
[57] Michael J. Medley Gary J.Saulnier and PankaJ K. Das. "INTERFERENCE SUPPRESSION USING COSINE-MODULATED FILTER BANKS', IEEE, 1996.
[58] Stuart D.Sandberg,Stephen Del Marco."Some Alternatives in Transform-Domain Suppression of Narrow-Band Interference for Signal Detection and Demodulation",IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 43, NO. 12, DECEMBER 1995.
[59] Gary J.Saulnier. "Suppression of Narrowband Jammers in a Spread-Spectrum Receiver Using Transform-Domain Adaptive Filtering", IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 10, NO 4, MAY 1992.
[60] R.Rifkin. "Comments on Narrow-Band Interference Rejection Using Real-Time Fourier Transforms", IEEE Trans, on Communications, VOL. 39, NO. 9, SEPTEMBER, 1991.
[61] JOHN GEVARGIZ, PANKAJ K. DAS. "Adaptive Narrow-band Interference Rejection in a DS Spread-spectrum Intercept Receiver Using Transform Domain Signal Processing Techniques", IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 37, NO. 12, DECEMBER 1989.
[2] 张贤达,保铮.通信信号处理[M].北京:国防工业出版社,2000.
[3] M L Roberts, M A Temple, R A Raines, and E P Magee. Initial acquisition performance of a transform domain communication system: modeling and simulation results[C]. Proc. of IEEE MILCOM'00, October 2000.
[4] R W Klein, M A Temple, R L Claypoole, R A Raines, and J P Stephens. Performance characterization of a proposed wavelet domain communication (WDCS) [C], 5th World Multi-Conference on Systemics, Cybernetics and Informatics, SCI'01, July 2001.
[5] James B Y Tsui, James P Stephens. Digital microwave receiver technology[J]. IEEE Trans. Microwave theory and Techniques, Vol. 50, No. 3. March 2002.
[6] Marion J. Lee, Michael A. Temple, Roger L. Claypoole, Richard A. Raines Transform Domain Communications And Interference Avoidance Using Wavelet Packet Decomosition IEEE 2002
[7] Richard S Orr. Wavelet transform domain communication systems[C]. SPIE proceeding Vol. 2491.
[8] Richard S Orr, Cameron Pike, Margaret L. Bates. Multiple Access Communications Using Wavelet Technology [C] SPIE proceeding Vol. 2491.
[9] R. W. Klein, M. A. Temple, R. A. Raines and R. L. Claypoole. Jr. Intreference avoidance communications using wavelet domain transformation techniques IEEE J. Electronics Letters 19th July 2001 Vol.37 No.15.
[10] Partric J. Swackhammer Michael A. Temple, Richard A. Raines. Performance simulation of a transform domain communication system for multiple access applications[C] Proc. of IEEE MIL COM'99, October 1999.
[11] Proakis John G. Digital Communication[M], Third Edition, McGraw-Hill Inc., 1995.
[12] Rodger E Ziemer, Roger L Peterson. Digital Communications and Spread Spectrum Systems. Macmillan Inc., 1985.
[13] 曹志刚,钱亚生,现代通信原理[M],北京:清华大学出版社,1993。
[14] 沈振元,聂志泉,赵雪荷,通信系统原理[M],西安:西安电子科技大学出版社,1995。
[15] 朱近康,扩展频谱通信及其应用[M],合肥,中国科学技术大学出版社,1993。
[16] Theodore S.Rappaport,无线通信原理与应用[M],北京,电子工业出版社,2000。
[17] 朱华,黄辉宁,李永庆,梅文博,随机信号分析[M],北京,北京理工大学出版社1995。
[18] Tero Ojanpera,Rmajee Prasad 宽带 CDMA:第三代移动通信技术[M] 北京 人民邮电出版社 2001。
[19] 胡广书, 数字信号处理-理论、算法与实现[M],北京 清华大学出版社 1997。
[20] 赵松年,熊小云,子波变换与子波分析[M],北京 电子工业出版社 1997
[21] 佟学检,乐光新,“DS-CDMA 与 MC-CDMA 通信系统的比较”,移动通信 2000年第六期。
[22] 王强,孙锦涛,谢仁宏“OFDM 技术在短波数据通信中的应用”,通信技术 2001年第1期。
[23] 李红平,刘明庆,李建军,“短波全数字自适应调频通信”,现代通信 200年第12期。
[24] 郭经红,张官元“多径信道的最佳小波波形”,电子学报,2002年第4期。
[25] 王立宁,欧阳聪星,佟学检,乐光新,“多址干扰对直扩多载波 CDMA 捕获性能的影响”,北京邮电大学学报,2000年9月。
[26] 袁超伟,杨英“基于最佳小波包基的多载波 CDMA”,北京邮电大学学报,2001年9月。
[27] 黎海涛,张靖,“无线 OFDM 技术”电信科学,2002年第4期。
[28] 张磊,潘泉,张洪才,戴冠中,“小波域滤波阈值参数 c 的选取”,电子学报,2001年3月。
[29] 俞世荣,“自适应调频通信及其抗干扰性能”,通信技术,1999年第2期。
[30] 窦怀宇,毕光国‘最佳小波包多载波调制解调技术’通信学报,2000年6月。
[31] 赵亚红,李伟华,吴伟陵‘正交多载波调制(OFDM)技术及其应用’电讯技术 2001年第1期。
[32] 徐娟,覃团发,“DS-CDMA 通信系统仿真研究”,上海铁道大学学报,2000年4月。
[33] 宋铁成,尤肖虎,沈连丰,“OFDM 技术应用于 Beyond 3G 的仿真研究”,通信技,术,2002年第3期
[34] 杨世海,周良柱,“基于 MATLAB 的 CDMA 无线通信可视化仿真”,系统仿真学报,2001年1月
[35] 马惠明,王德苗,“WCDMA 数字基带算法仿真平台”,系统仿真学报,第十四卷第十二期,2002年12月。
[36] Tao Luo, Subbarayan Pasupathy. "Interference Control and Chip Waveform Design in Multirate DS-CDMA Communication systems", IEEE TRANSACTIONS ON WIRELESS
COMMUNICATIONS, VOL. 1, NO. 1, JANUARY 2002.
[37] 赵瑞珍,屈汉章,“基于小波系数区域相关性的阈值算法”,西安电子科技大学学报,第28卷第3期,2001年6月。
[38] 张骏凌,苏莉等,“多载波 CDMA 中变换域自适应滤波抑制窄带干扰”,系统工程与电子技术,第二十三卷第十一期,2001年。
[39] 王安义,张林让,“一种消除 CDMA 系统多址干扰和码片间干扰的空时处理技术”,西安电子科技大学学报(自然科学版),第28卷第一期,2001年2月。
[40] Wen-Sheng Hou, Li-Mei. "Adaptive Narrowband Interference Rejection in DS-CDMA System: A Scheme of Parallel Interference Cancellers", IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL.19, NO.6, JUNE 2001.
[41] 王庆禹,褚福磊,“小波变换中的能量泄露问题”,机械科学与技术,第二十卷第一期,2001年1月。
[42] 王文杰,蒋伯峰,“非周期扩频系统中频率域多径时延估计”,西安交通大学学报,第35卷第4期,2001年4月。
[43] 王世练,路军,“DS/FH 中窄带干扰的变换域处理方法研究”,国防科技大学学报,第23卷第4期,Vol.23 No.4.2001年。
[44] 胡明友,谢恒,“基于小波变换抑制局部放电监测中平稳性干扰的滤波器的研究”,中国电机工程学报 000110,2000年。
[45] 李冲泥,胡光锐等。“变换域自适应滤波技术在扩频通信抗窄带干扰中的应用”,上海交通大学学报 000206,2000 Vol.34 No.2.
[46] Ravi Narasimhan, Donald C. Cox. "Wavelet-Based Estimation of the Nonstationary Mean Signal in Wireless Systerms", IEEE JOURNAL ON SELECTED AREASIN COMMUNICATIONS. VOL. 18, NO, 11, NOVEMBER, 2000.
[47] Michael B. Matthews. "On the Linear Minimum-Mean-Squared-Error Estimation of an Undersampled Wide-Sense Stationary Random Process", IEEE, 2000.
[48] Catharina Carlemalm, H. Vincent Poor, "Suppression of Multiple Narrowband Interferers in a Spread-Spectrum Communication System", IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 18, NO. 8, AUGUST 2000.
[49] Savo G. Glisic, Zorica B. Nikolic. "Performance Enhancement of DSSS Systems." Two-Dimensional Interference Suppression", IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 47, NO. 10, OCTOBER 1999.
[50] 胡爱群,雷静,“扩频通信中大功率窄带干扰抑制的一种频域自适应算法”,东南大学学报,第29卷第4期,1999年7月。
[51] 杨尉民,毕光国,“基于自适应小波包变换的直接序列扩频通信窄带干扰抑制技
术”。通信学报第二十卷第七期,1999年7月。
[52] Yifeng Zhang and Jeffrey Dill."An Anti-Jamming Algorithm using Wavelet Packet Modulated Spread Specturm", IEEE, 1999.
[53] Michael J.Medley,Gary J.Saulnier."Narrow-Band Interference Excision in Spread Spectrum Systems Using Lapped Transforms" , IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 45, NO. 11, NOVEMBER 1997.
[54] Michael J. Medley . "TRANSFORM DOMAIN LMS CONVERGENCE IN TONE INTERFERENCE',IEEE MILCOM '97, October 1997.
[55] Timo J. Kumpumaki, Matti A. Isohookana. "NARROW-BAND INTERFERENCE REJECTION USING TRANSFORM DOMAIN SIGNAL PROCESSING IN A HYBRID DS/FH SPREAD-SPECTRUM SYSTEM', IEEE MILCOM'97, October 1997.
[56] Michael A.Soderstrand,Thomas G.Johnson."Suppression of Multiple Narrow-band Interference Using Real-time Adaptive Notch Filter", IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS-II:ANALOG AND DIGITAL SIGNAL PROCESSING, VOL. 44, NO. 3, MARCH 1997.
[57] Michael J. Medley Gary J.Saulnier and PankaJ K. Das. "INTERFERENCE SUPPRESSION USING COSINE-MODULATED FILTER BANKS', IEEE, 1996.
[58] Stuart D.Sandberg,Stephen Del Marco."Some Alternatives in Transform-Domain Suppression of Narrow-Band Interference for Signal Detection and Demodulation",IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 43, NO. 12, DECEMBER 1995.
[59] Gary J.Saulnier. "Suppression of Narrowband Jammers in a Spread-Spectrum Receiver Using Transform-Domain Adaptive Filtering", IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 10, NO 4, MAY 1992.
[60] R.Rifkin. "Comments on Narrow-Band Interference Rejection Using Real-Time Fourier Transforms", IEEE Trans, on Communications, VOL. 39, NO. 9, SEPTEMBER, 1991.
[61] JOHN GEVARGIZ, PANKAJ K. DAS. "Adaptive Narrow-band Interference Rejection in a DS Spread-spectrum Intercept Receiver Using Transform Domain Signal Processing Techniques", IEEE TRANSACTIONS ON COMMUNICATIONS, VOL. 37, NO. 12, DECEMBER 1989.