参考文献

[1]李程.雷达电子侦察的多层次处理关键技术研究[D].长沙：国防科学技术大学，2015.

[2]王雪霞.基于软件无线电的通信侦察接收机关键技术研究[D].哈尔滨：哈尔滨工业大学，2008.

[3]WILEY R G．电子情报（ELINT）——雷达信号截获与分析[M].吕跃广，等译.北京：电子工业出版社，2008.

[4]国强.雷达信号分选理论研究[M].北京：科学出版社，2010.

[5]CAMPBELL J W, SAPERSTEIN S.Signal recognition in complex radar environments [R].Watkins-Johnson Tech Notes, 1976, 3(6).

[6]ROGERS J A V.ESM processor system for high pulse density radar environment[J].IEE Proc., 1985, 132(7): 621-625.

[7]MARDIA H K.Digital signal processing for radar recognition in dense radar environments[D].Electrical Engineering Department, Leeds University, 1988.

[8]朱志贤，张柏勤，王乃和.数字延迟式雷达信号重复频率分选机[J].电子对抗，1982，7：85-96.

[9]MARDIA H K.New techniques for the deinterleaving of repetitive sequences[J].IEE Proc.F (Communications, Radar and Signal Processing), 1989, 136(4): 149-154.

[10]MILOJEVIC D J, POPOVIC B M.Improved algorithm for the deinterleaving of radar pulses[J].IEE Proc.F (Communications, Radar and Signal Processing), 1992, 139(1): 98-104.

[11]NELSON D J.Special purpose correlation function for improved signal detection and parameter estimation[C].Proc.International Conference on Acoustics, Speech, and Signal Processing(ICASSP), Minneapolis, Minnesota, USA, April, 1993: 73-76.

[12]NISHIGUCHI K, KOBAYASHI M.Improved algorithm for estimating pulse repetition intervals[J].IEEE Trans.Aerospace and Electronic Systems, 2000, 36(2): 407-421.

[13]孟建，胡来招.用于信号处理的重复周期变换[J].电子对抗技术，1998，13(1)：1-7.

[14]张葛祥.雷达辐射源信号智能识别方法研究[D].成都：西南交通大学博士学位论文，2005.

[15]王永刚，刘玉文.军事卫星及应用概论[M].北京：国防工业出版社，2003.

[16]卢昱，王宇，吴忠望，等.空间信息对抗[M].北京：国防工业出版社，2009.

[17]王景泉，卢波.国外电子侦察卫星的发展趋势[J].国际太空，1997(9)：11，12.

[18]冯如.美国电子侦察卫星的发展概况[J].国际太空，2000(10)：6-8.

[19]周一宇，安玮，郭福成，等.电子对抗原理[M].北京：电子工业出版社，2009.

[20]赵国庆.雷达对抗原理[M].西安：西安电子科技大学出版社，1999.

[21]周一宇，安纬，郭福成，等.电子对抗原理[M].北京：电子工业出版社，2009.

[22]唐永年.雷达对抗工程[M].北京：北京航空航天大学出版社，2012.

[23]POISEL R.电子战目标定位方法[M].2版.王沙飞，田中成，译.北京：电子工业出版社，2014.

[24]胡来招.无源定位[M].北京：国防工业出版社，2004.

[25]BARTLETT M.S.Properties of Sufficiency and Statistical Tests [J].Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences, 1937, 160(901): 268-282.

[26]BURG J.P.Maximum entropy spectral analysis [J].Astronomy and Astrophysics Supplement Series, 1974, 15:383-393.

[27]CAPON J.High-resolution frequency-wavenumber spectrum analysis [J].Proceedings of the IEEE, 1969, 57(8): 1408-1418.

[28]KAY S M, MARPLE S L.Spectrum analysis−a modern perspective[J].Proceedings of the IEEE, 1981, 69(11):1380-1419.

[29]CADZOW J.High performance spectral estimation--A new ARMA method[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1980, 28(5): 524-529.

[30]SCHMIDT R O.Multiple emitter location and signal parameter estimation[J].IEEE transactions on antennas and propagation, 1986, 34(3): 276-280.

[31]ROY R, KAILATH T.ESPRIT-Estimation of signal parameters via rotational invariance techniques [J].IEEE Transactions on acoustics, speech, and signal processing, 1989, 37(7): 984-995.

[32]KAVEH M, BARABELL A.The statistical performance of the MUSIC and the minimum-norm algorithms in resolving plane waves in noise[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1986, 34(2): 331-334.

[33]CADZOW J A, KIM Y S and SHIUE D C.General direction-of-arrival estimation: a signal subspace approach[J].IEEE Transactions on Aerospace and Electronic Systems, 1989, 25(1): 31-47.

[34]RAO B D, HARI K V S.Performance analysis of root-MUSIC[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1989, 37(12): 1939-1949.

[35]KARABULUT G Z, KURT T, YONGAÇOGLU A.Estimation of directions of arrival by matching pursuit (EDAMP)[J].EURASIP Journal on Wireless Communications and Networking, 2005, 2005(2): 197-205.

[36]COTTER S F.Multiple snapshot matching pursuit for direction of arrival (DOA) estimation[C]//2007 15th European Signal Processing Conference.IEEE, 2007: 247-255.

[37]HYDER M M, MAHATA K.Direction-of-Arrival Estimation Using a Mixed l2,0 Norm Approximation[J].IEEE Transactions on Signal processing, 2010, 58(9): 4646-4655.

[38]GORODNITSKY I F, RAO B D.Sparse signal reconstruction from limited data using FOCUSS: A re-weighted minimum norm algorithm[J].IEEE Transactions on signal processing, 1997, 45(3): 600-616.

[39]DMITRY M, MÜJDAT C, and ALAN S.A sparse signal reconstruction perspective for source localization with sensor arrays[J].IEEE transactions on signal processing, 2005, 53(8): 3010-3022.

[40]YIN J, CHEN T.Direction-of-arrival estimation using a sparse representation of array covariance vectors[J].IEEE Transactions on Signal Processing, 2011, 59(9): 4489-4493.

[41]LIU Z M, HUANG Z T, ZHOU Y Y.An efficient maximum likelihood method for direction-of-arrival estimation via sparse Bayesian learning[J].IEEE Transactions on Wireless Communications, 2012, 11(10):3607-3617.

[42]WU L L, LIU Z M, JIANG W L.A direction finding method for spatial optical beam-forming network based on sparse Bayesian learning[J].Signal, Image and Video Processing, 2017, 11(2): 203-209.

[43]SHAN T J, WAX M, KAILATH T.On spatial smoothing for direction-of-arrival estimation of coherent signals[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1985, 33(4): 806-811.

[44]PILLAI S U, KWON B H.Performance analysis of MUSIC-type high resolution estimators for direction finding in correlated and coherent scenes[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1989, 37(8): 1176-1189.

[45]SU G, MORF M.The signal subspace approach for multiple wide-band emitter location[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1983, 31(6): 1502-1522.

[46]TAYEM N, KWON H M.L-shape 2-dimensional arrival angle estimation with propagator method[J].IEEE transactions on antennas and propagation, 2005, 53(5): 1622-1630.

[47]WU Y T, SO H C.Simple and accurate two-dimensional angle estimation for a single source with uniform circular array[J].IEEE Antennas and wireless propagation Letters, 2008, 7: 78-80

[48]WEISS A J, FRIEDLANDER B.Effects of modeling errors on the resolution threshold of the MUSIC algorithm[J].IEEE Transactions on Signal Processing, 1994, 42(6): 1519-1526.

[49]LI F, VACCARO R J.Sensitivity analysis of DOA estimation algorithms to sensor errors[J].IEEE Transactions on Aerospace and Electronic Systems, 1992, 28(3):708-717.

[50]WU Y T, LIAO G S, SO H C.A fast algorithm for 2-D direction-of-arrival estimation[J].Signal Processing, 2003, 83: 1827-1831.

[51]WONG K M, ZHANG Q T, et al.On information theoretic criteria for determining the number of signals in high resolution array processing [J].IEEE Transactions Acoustics, Speech, and Signal Processing, 1990, 38(11): 1959-1971.

[52]WU L L, LIU Z M, HUANG Z T.Online source number estimation based on sequential hypothesis test and subspace tracking[J].Signal, Image and Video Processing, 2019, 13(2): 1959-1971.

[53]CHAN Y T, JARDINE F L.Target localization and tracking from Doppler-shift measurements[J].IEEE Journal of Oceanic Engineering.1990, 15 (3): 251–257.

[54]CHAN Y T, TOWERS J J.Passive localization from Doppler-shifted frequency measurements[J].IEEE Transactions on Signal Processing.1992, 40 (10): 2594–2598.

[55]TORRIERI D J.Statistical theory of passive location systems [J].IEEE Trans.Aero.Elec.Sys.1984, AES-20 (2): 183-198.

[56]HO K C, CHAN Y T.Geolocation of a known altitude object from TDOA and FDOA measurements[J].EEE Trans.Aerosp.Electron.Syst.1997, 33 (3): 770-783.

[57]HU D, HUANG Z, CHEN X, et al.A Moving Source Localization Method Using TDOA, FDOA and Doppler Rate Measurements [J/OL].IEICE Transactions on Communications.2016, 99 (3):758–766.http://ci.nii.ac.jp/naid/130005131785/en/.

[58]王鼎，张莉，吴瑛.基于角度信息的约束总体最小二乘无源定位算法[J].中国科学（E辑：信息科学），2006，26(8)：880-890.

[59]修建娟，何友，王国宏.测向交叉定位系统中的交会角研究[J].宇航学报，2005，26(3)：282-286.

[60]孙仲康，周一宇，何黎星，等.单多基地有源无源定位技术[M].北京：国防工业出版社，1996.

[61]LU X, HO K C.Taylor-series Technique for Source Localization Using AoAs in the Presence of Sensor Location Errors[C]// Proceedings of 4th IEEE Sensor Array and Multichannel Signal Processing Workshop.USA: Institute of Electrical and Electronics Engineers Computer Society, 2006:190-194.

[62]YANG L, HO K C.An Approximately Efficient TDOA Localization Algorithm in Closed-Form for Locating Multiple Disjoint Sources With Erroneous Sensor Positions[J].IEEE Transactions on Signal Processing, 2009, 57(12): 4598-4615.

[63]YANG B, SCHEUING J.A Theoretical Analysis of 2D Sensor Arrays for TDOA Based Localization[C]// Proceeding of the 2006 IEEE International Conference on Acoustics,Speech and Signal Processing.USA: Institute of Electrical and Electronics Engineers Inc., 2006:901-904.

[64]CHAN Y T, HO K C.A Simple and Efficient Estimator for Hyperbolic Location[J].IEEE Transactions on Signal Processing, 1994, 42(8): 1905-1915.

[65]杨林.无源时差定位及其信号处理[D].长沙：国防科学技术大学，1998.

[66]钟丹星，邓新蒲，周一宇.一种基于WGS_84地球面模型的卫星测时差定位算法[J].宇航学报，2003，24(6)：569-573.

[67]侯燕.无源时差频差定位方法的研究[D].南京：南京理工大学，2007.

[68]张波，石昭祥.差分多普勒定位技术的仿真研究[J].电光与控制，2009，16(3)：13-16.

[69]WEINSTEIN E.Measurement of the Differential Doppler Shift[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1982, 30(1): 112-117.

[70]AMAR A, WEISS A J.Localization of Radio Emitters Based on Doppler Frequency Shifts[J].IEEE Transactions on　Signal Processing, 2008, 56(11): 5500-5508.

[71]CHESTNUT P C.Emitter Location Accuracy Using TDOA and Differential Doppler[J].IEEE Transactions on Aerospace and Electronic Systems, 1982, 18(2): 214-218.

[72]SCHEUING J, YANG B.Disambiguation of TDOA Estimation for Multiple Sources in Reverberant Environments [J].IEEE Transactions on Audio, Speech, and Language Processing, 2008, 16(8): 1479-1489.

[73]孙欢.无源定位系统中高重频定位模糊研究[D].南京：南京电子技术研究所，2005.

[74]GAI J, CHAN F, CHAN Y T, et al.Frequency Estimation of Uncooperative Coherent Pulse Radars[C]// Military Communications Conference.USA: Institute of Electrical and Electronics Engineers Inc., 2007:1-7.

[75]STEIN S.Algorithms for Ambiguity Function Processing[J].IEEE Transactions on Acoustics, Speech, and Signal Processing, 1981, 29(3): 588-599.

[76]DU H J, LEE J P Y.Simulation of Multi-Platform Geolocation Using a Hybrid TDOA/AOA Method[R].Ottawa: DRDC, 2004.

[77]CONG L, ZHUANG W.Hybrid TDOA/AOA Mobile User Location for Wideband CDMA Cellular Systems [J].IEEE Transactions on Wireless Communications, 2002, 1(3): 439-447.

[78]MA C L, KLUKAS R, LACHAPELLE G.An Enhanced Two-Step Least Squared Approach for TDOA/AOA Wireless Location[C]// 2003 International Conference on Communications.USA: Institute of Electrical and Electronics Engineers Inc., 2003:987-991.

[79]HO K C, XU W W.An Accurate Algebraic Solution for Moving Source Location Using TDOA and FDOA Measurements [J].IEEE Transactions On Signal Processing, 2004, 52(9): 2453-2463.

[80]HO K C, CHAN Y T.Geolocation of a Known Altitude Object from TDOA and FDOA Measurements[J].IEEE Transactions on Aerospace and Electronic Systems, 1997, 33(3): 770-783.

[81]WEI H W, PENG R, WAN Q.Multidimensional Scaling Analysis for Passive Moving Target Localization with TDOA and FDOA Measurement[J].IEEE Transactions on Signal Processing, 2010, 58(3): 1677-1688.

[82]钟珲，陈守稳.时差与测向结合解高重频信号定位模糊的方法[J].现代防御技术，2008，36(5)：108-112.

[83]VINCENT J.Aidala, Kalman filter behavior in bearing-only tracking applications[J], IEEE Transactions on Aerospace and Electronic Systems, Vol.AES-15, No.1, Jan.1979: 29-39.

[84]VINCENT J.Aidala, Sherry Hammel, Utilization of modified polar coordinates for bearings-only tracking[J].IEEE Transactions on Automatic Control, Vol.AC-28, No.3, Mar.1983: 283-294.

[85]STEVEN C.Nardone, Allen Lingeren, Kai F.Gong, Fundamental properties and performance of conventional bearings-only target motion analysis[J].IEEE Transactions on Automatic Control, Vol.AC-29, No.9, Sept.1984: 775-787.

[86]WEBSTER R J.An exact trajectory solution from Dopple shift Measurement[J].IEEE Transactions on Aerospace and Electronic Systems, Vol.18, No.2, Mar.1982:249-252.

[87]CHAN Y T, RUDNICKI S, Bearings-only and Doppler-bearing tracking using instrumental variables[J].IEEE Transactions on Aerospace and Electronic Systems, Vol.28, No.4, Oct.1992: 1076-1082.

[88]许耀伟，一种快速高精度无源定位方法的研究[D].长沙：国防科学技术大学，1998.

[89]邓新蒲，运动单观测器无源定位与跟踪方法研究[D].长沙：国防科学技术大学，2000.

[90]李宗华，无机动单站对运动辐射源的无源定位跟踪技术研究[D].长沙：国防科学技术大学，2003.

[91]冯道旺，利用径向加速度信息的单站无源定位技术研究[D].长沙：国防科学技术大学，2003.

[92]孙仲康，基于运动学原理的无源定位技术[J].制导与引信，2001，22(1)：40-44.

[93]郭福成，基于运动学原理的单站无源定位与跟踪关键技术研究[D].长沙：国防科学技术大学，2002.

[94]BELLO P.Joint estimation of delay, Doppler, and Doppler rate [J].IRE Transactions on Information Theory.1960, 6 (3): 330-341.

[95]ABATZOGLOU T.Fast maximum likelihood joint estimation of frequency and frequency rate [C].In ICASSP ’86.IEEE International Conference on Acoustics, Speech, and Signal Processing:1409-1412.

[96]ZHANG S, XING M.A Novel Doppler Chirp Rate and Baseline Estimation Approach in the Time Domain Based on Weighted Local Maximum-Likelihood for an MC-HRWS SAR System [J].IEEE Geoscience and Remote Sensing Letters.2017, 14 (3): 299-303.

[97]ZHANG W Q.Fast Doppler rate estimation based on fourth-order moment spectrum [J].Electronics Letters.2015, 51 (23): 1926-1928.

[98]CATOVIC A, SAHINOGLU Z.The Cramer-Rao bounds of hybrid TOA/RSS and TDOA/RSS location estimation schemes [J].IEEE Communications Letters.2004, 8 (10): 626-628.

[99]LI X.RSS-Based Location Estimation with Unknown Pathloss Model [J].IEEE Transactions on Wireless Communications.2006, 5 (12): 3626-3633.

[100]PATWARI N, HERO A O, PERKINS M, et al.Relative location estimation in wireless sensor networks [J].IEEE Transactions on Signal Processing.2003, 51 (8): 2137-2148.

[101]WANG G, YANG K.A New Approach to Sensor Node Localization Using RSS Measurements in Wireless Sensor Networks [J].IEEE Transactions on Wireless Communications.2011, 10 (5):1389-1395.

[102]WEISS A J.On the accuracy of a cellular location system based on RSS measurements [J].IEEE Transactions on Vehicular Technology.2003, 52 (6): 1508-1518.

[103]WEISS A J.Direct position determination of narrowband radio frequency transmitters [J].IEEE Signal Process Lett.2004, 11 (5): 513-516.

[104]YIN J,WANG D,WU Y, et al.Direct Localization of Multiple Stationary Narrowband Sources Based on Angle and Doppler [J].IEEE Communications Letters.2017, 21 (12): 2630-2633.

[105]GARCIA N, WYMEERSCH H, LARSSON E G, et al.Direct Localization for Massive MIMO [J].IEEE Transactions on Signal Processing.2017, 65 (10): 2475-2487.

[106]WU G Z, ZHANG M, GUO F C, et al.Direct Position Determination of Coherent Pulse Trains Based on Doppler and Doppler Rate[J].Electronics, 2018, 7(10):1-16.

[107]WU G Z, ZHANG M, GUO F C.High-resolution direct position determination based on eigenspace using a single moving ULA[J].Signal, Image and Video Processing, 2019, 13(5):887-894.

[108]WU G Z, ZHANG M, HE C X, et al.Direct position determination using single moving rotating linear array: Noncoherent and coherent processing[J].Chinese Journal of Aeronautics, 2019, In Press, https://doi.org/ 10.1016/j.cja.2019.07.027.

[109]穆世强，熊健，陈天麒.脉内调制特性的中频解调分析[J].电子科技大学学报，1993(3)：224-237.

[110]黄知涛，周一宇，姜文利.一种相位编码序列恢复方法[J].信号处理，2002，18(2)：141-146.

[111]曾德国.低截获概率雷达信号侦收技术研究[D].成都：电子科技大学，2012.

[112]王佩.复合调制雷达信号自主侦收方法研究[D].成都：电子科技大学，2017.

[113]韩俊，何明浩，朱振波，等.基于复杂度特征的未知雷达辐射源信号分选[J].电子与信息学报，2009，31(11)：2552-2556.

[114]王海华，沈晓峰.一种新的雷达辐射源信号脉内特征提取方法[J].系统工程与电子技术，2009，31(4)：809-811.

[115]池庆玺.脉压雷达脉内特征分析与处理技术研究[D].哈尔滨：哈尔滨工程大学，2007.12.

[116]李一兵，葛娟，林云.基于熵特征和支持向量机的调制识别方法[J].系统工程与电子技术，2012，34(8)：1691-1695.

[117]王培培，徐才宏.瞬时频率雷达信号脉内调制识别技术[J].现代电子技术，2016，39(13)：30-34.

[118]赵拥军，黄洁.雷达信号细微特征时频分析法[J].现代雷达，2003，25(12)：26-28.

[119]张国柱.雷达辐射源识别技术研究[D].长沙：国防科学技术大学，2005.

[120]GULUM T O, PACE P E, CRISTI R.Extraction of polyphase radar modulation parameters using a wigner-ville distribution - radon transform[C].Proc.ICASSP, Las Vegas, NV, USA, April, 2008.

[121]MING J, XULONG S, GUOBING H.Intrapulse modulation recognition of radar signals based on statistical tests of the time-frequency curve[C].2011 International Conference on Electronics and Optoelectronics (ICEOE), 2011: V1-300-V1-304.

[122]ZENG D, ZENG X, CHENG H, et al.Automatic modulation classification of radar signals using the Rihaczek distribution and hough transform[J].IET Radar Sonar Navigation, 2012, 6(5): 322-331.

[123]南普龙.基于多维信息挖掘的雷达信号分选方法研究[D].哈尔滨：哈尔滨工程大学，2016.

[124]井博军.基于深度学习的雷达辐射源识别技术研究[D].西安：西安电子科技大学，2017.

[125]HO K C, PROKOPIW W, CHAN Y T.Modulation identification of digital signals by the wavelet transform[J].IEE Proc.- Radar, Sonar and Navigation, 2000, 147(4): 169-176.

[126]LIU W, ZHU D, ZHANG C.The extraction of modulation characteristics of radar signal using wavelet transform[C].International Conference on Signal Processing, 1998: 288-291.

[127]余志斌，金炜东，陈春霞.基于小波脊频级联特征的雷达辐射源信号识别[J].西南交通大学学报，2010，45(2)：290-295.

[128]SWIERCZ E.Automatic classification of LFM signals for radar emitter recognition using wavelet decomposition and LVQ classifier[J].Acta Physica Polonica, 2011, 119(4): 488-494.

[129]朱斌.雷达辐射源信号特征提取与评价方法研究[D].成都：西南交通大学，2015.

[130]LU M Q, XIAO X C, LI L M.Cyclic spectral features based modulation recognition[C].Proc.International Conference on Communication Technology, Beijing, 1996, 2: 792-795.

[131]陆凤波，黄知涛，易辉荣.一种基于高阶累计量的数字调相信号识别方法[J].系统工程与电子技术，2008，09(2)：1611-1615.

[132]张谕会.LPI雷达信号波形侦察算法与干扰原理研究[D].哈尔滨：哈尔滨工业大学，2012.

[133]郭戈，徐佳婧，徐璟，等.基于QPSO的雷达辐射源信号识别方法研究[J].空军预警学院学报，2014(3)：161-164.

[134]刘歌，张国毅，于岩.基于随机森林的雷达信号脉内调制识别[J].电信科学，2016：69-76.

[135]盛九朝，束坤.一种雷达脉冲序列重频类型识别方法[J].舰船电子对抗，2003，26(4)：4-6.

[136]孔辉，王杰贵，宋小梅.基于最小张树判决域法的雷达重频模式识别[J].电子信息对抗技术，2008，23(6)：12-16.

[137]邹鹏，莫翠琼，张智，等.一种新的雷达重频模式识别方法[J].雷达与对抗，2011，31(2)：24-28.

[138]杨文华，高梅国.基于平面变换技术的脉冲信号分选[J].北京理工大学学报，2005，25(2)：151-154.

[139]赵仁健，龙德浩，熊平，等.密集信号分选的平面变换技术[J].电子学报，1998，26(1)：77-82.

[140]赵仁健，熊平，倪明.密集信号分选平面变换技术的多义性分析[J].四川大学学报（自然科学版），1997，34(2)：177-182.

[141]MENG J, HU L Z.A new transform method for pulse train parameter estimation[C].Proc.International Conference on Signal Processing(ICSP’98), Beijing, China, 1998: 1562-1565.

[142]张西托，饶伟，杨泽刚，等.平面变换技术脉冲分选自动实现方法[J].数据采集与处理，2012，27(4)：495-500.

[143]EINICKE G A.A flexible architecture for realtime modulation recognition, Australian ASSPA'89, 1989: 133-137.

[144]WEAVER C S, COLE C A, KRUMLAND R B, et al.The automatic classification of modulation types by pattern recognition, AD691069, April 1969.

[145]NANDI A K, AZZOUZ E E.Automatic analogue modulation recognition[J].Signal Precessing, 1995, 46(2): 211-222.

[146]EDWARD E.Hilbert, Chung-Fu Chang.Bayesian neural network ATR for multi-feature SAR[C].Proc.SPIE-The International Society for Optical Engineering, June, 1994, 2230: 344-355.

[147]HO T K, HULL J J, SRIHAN S N.Decision combination in multiple classifiers systems[J].IEEE Trans.Pattern Analysis and Machine Intelligence, 1994, 16: 66-75.

[148]CHATZIS V, Adrian G.Bors, Ioannis Pitas.Multimodal decision-level fusion for person authentication[J].IEEE Trans.Systems, Man, and Cybernetics, 1999, 29: 674-680.

[149]GENOUD D, GRAVIER G, BIMBOT F, et al.Combining methods to improve the phone based speaker verification decision[C].Proc.Conf.Speech and Language Processing, 1996, 3: 1756-1760.

[150]PARMANTO B, MUNRO P W, DOYLE H R.Reducing variance of committee prediction with resampling techniques[J].Connection Science, 1996, 8: 405-426.

[151]GIACINTO G , PAOLUCCI R, ROLI F.Application of neural networks and statistical pattern recognition algorithms to earthquake risk evaluations[J].Pattern Recognition Letters,1997, 18: 1353-1362.

[152]KITTLER J, HATEF M, DUI R P W, et al.On combining classifiers[J].IEEE Trans.Pattern Analysis and Machine Intelligence, 1998, 20(3): 226-239.

[153]TALBOT K I, DULEY P R, Hyatt M H.Specific emitter identification and verification[J].Technology Review Journal, 2003(Spring/Summer): 113-133.

[154]DEYOUNG D.Fulfilling the Roosevelts' vision for american naval power (1923-2005)[R].Washington, D.C.: Naval Research Laboratory, 2006.

[155]许丹.辐射源指纹机理及识别方法研究[D].长沙：国防科学技术大学，2008.

[156]魏智.发射机高压脉冲调制器的设计与实践[M].北京：电子工业出版社，2009.

[157]BOASHASH B.Estimating and interpreting the instantaneous frequency of a signal - Part 2: Algorithms and applications[J].Proc.the IEEE, 1992, 80(4): 540-568.

[158]RU X H, LIU Z, HUANG Z T, et al.Evaluation of unintentional modulation for pulse compression signals based on spectrum asymmetry[J].IET Radar, Sonar and Navigation, 2017, 11(4): 656-663.

[159]许丹，柳征，姜文利，等.窄带信号中的放大器“指纹”特征提取：原理分析及FM广播实测实验[J].电子学报，2008，36(5)：927-932.

[160]胡建伟.小波在电子侦察中的应用[D].西安：西安电子科技大学，2005.

[161]柳征，姜文利，周一宇.基于小波包变换的辐射源信号识别[J].信号处理，2005，21(5)：460-464.

[162]柳征.辐射源调制分类与个体识别技术研[D].长沙：国防科学技术大学，2005.

[163]李策.雷达辐射源细微特征提取方法研究[D].西安：西安电子科技大学，2018.

[164]刘婷.基于循环平稳分析的雷达辐射源特征提取与融合识别[D].西安：西安电子科技大学，2009.

[165]AUBRY A, BAZZONI A, CAROTENUTO V, et al.Cumulants-based radar specific emitter identification[C].Proc.IEEE International Workshop on Information Forensics and Security, Iguacu Falls, Brazil, Dec., 2011: 1-6.

[166]王希勤，刘婧瑶，孟华东，等.一种基于时频原子特征的雷达辐射源信号识别方法[J].红外与毫米波学报，2011，30(6): 566-570.

[167]LI L, JI H B, JIANG L.Quadratic time-frequency analysis and sequential recognition for specific emitter identification[J].IET Signal Processing, 2011, 5(6): 568-574.

[168]司锡才，柴娟芳.基于FRFT 的α域-包络曲线的雷达信号特征提取及自动分类[J].电子与信息学报，2009，31(8)：1892-1897.

[169]SONG C, XU J, ZHAN Y.A method for specific emitter identification based on empirical mode decomposition[C].Proc.IEEE International Conference on Wireless Communications, Networking and Information Security(WCNIS), Beijing, China, 2010: 54-57.

[170]ANDERSON B P.The rational resolution analysis: A generalization of multiresolution analyses with application to the specific emitter identification problem[D].Air Force Institute of Technology, 1997.

[171]GILLESPIE B W, ATLAS L E.Optimizing time-frequency kernels for classification[J].IEEE Trans.Signal Processing, 2001, 49(3): 485-496.

[172]潘继飞，姜秋喜，毕大平.雷达“指纹”参数选取[J].现代防御技术，2007，35(1)：71-75.

[173]Sadler B M, Casey S D.On periodic pulse interval analysis with outliers and missing observations[J].IEEE Trans.Signal Processing, 1998, 46(11): 2990-3002.

[174]潘继飞，姜秋喜，毕大平.恒比触发法在高精度雷达PRI测量中的应用[J].现代雷达，2007，29(1)：64-68.

[175]CASEY S D, SADLER B M.Modifications of the Euclidean algorithm for isolating periodicities from a sparse set of noisy measurements[J].IEEE Trans.Signal Processing, 1996, 44(9): 2260-2272.

[176]GRAY D A, SLOCUMB B J, ELTON S D.Parameter estimation for periodic discrete event processes[C].Proc.ICASSP, 1994: 93-96.