[1] HARADA N. Review: potential catastrophic reduction of sea ice in the western arctic ocean: its impact on biogeochemical cycles and marine ecosystems [J]. Global and Planetary Change, 2016, 136: 1-17. [2] QARABAQI P,STOJANOVIC M. Statistical characterization and computationally efficient modeling of a class of underwater acoustic communication channels [J]. IEEE Journal of Oceanic Engineering, 2013, 38(4): 701-717. [3] STOJANOVIC M,FREITAG L. Multichannel detection for wideband underwater acoustic CDMA communications [J]. IEEE Journal of Oceanic Engineering, 2006, 31(3): 685-695. [4] CALVO E,STOJANOVIC M. Efficient channel-estimation-based multiuser detection for underwater CDMA systems [J]. IEEE Journal of Oceanic Engineering, 2008, 33(4): 502-512. [5] YANG T C,YANG W B. Interference suppression for code-division multiple-access communications in an underwater acoustic channel [J]. Journal of the Acoustical Society of America, 2009, 126(1): 220-228. [6] ALIESAWI S A,TSIMENIDIS C C,SHARIF B S,et al. Iterative multiuser detection for underwater acoustic channels [J]. IEEE Journal of Oceanic Engineering, 2011, 36(4): 728-744. [7] SONG H C,HODGKISS W S, KUPERMAN W A,et al. Multiuser communications using passive time reversal [J]. IEEE Journal of Oceanic Engineering, 2007, 32(4): 915-926. [8] SONG H C,KIM J S,HODGKISS W S,et al. High-rate multiuser communications in shallow water [J]. Journal of the Acoustical Society of America, 2010, 128(5): 2920-2925. [9] SONG H C,KIM J S,HODGKISS W S. Crosstalk mitigation using adaptive time reversal [J]. Journal of the Acoustical Society of America, 2010, 127(2): EL19-EL22.
[10] CHO S E,SONG H C,HODGKISS W S. Successive interference cancellation for underwater acoustic communications [J]. IEEE Journal of Oceanic Engineering, 2011, 36(4): 490-501. [11] CHO S E,SONG H C,HODGKISS W S. Multiuser interference cancellation in time-varying channels [J]. Journal of the Acoustical Society of America, 2012, 131(2): EL163-EL169. [12] CHO S E,SONG H C,HODGKISS W S. Asynchronous multiuser underwater acoustic communications (L) [J]. Journal of the Acoustical Society of America, 2012, 132(1): 5-8. [13] SHIMURA T,OCHI H,SONG H C. Experimental demonstration of multiuser communication in deep water using time reversal [J]. Journal of the Acoustical Society of America, 2013, 134(4): 3223-3229. [14] SONG H C. Equivalence of adaptive time reversal and least squares for cross talk mitigation [J]. Journal of the Acoustical Society of America, 2014, 135(3): EL154-EL158. [15] TU K,DUMAN T M,STOJANOVIC M,et al. Multiple-resampling receiver design for OFDM over Doppler-distorted underwater acoustic channels [J]. IEEE Journal of Oceanic Engineering, 2013, 38(2): 333-346. [16] WANG Z H,ZHOU S L,CATIPOVIC J,et al. Asynchronous multiuser reception for OFDM in underwater acoustic communications [J]. IEEE Transactions on Wireless Communications, 2013, 12(3): 1050-1061. [17] HUANG J Z,ZHOU S L,WANG Z H. Performance results of two iterative receivers for distributed MIMO OFDM with large Doppler deviations [J]. IEEE Journal of Oceanic Engineering, 2013, 38(2): 347-357. [18] CHO S E,SONG H C,HODGKISS W S. Multiuser acoustic communications with mobile users [J]. Journal of the Acoustical Society of America, 2013, 133(2): 880-890. [19] 魏丽萍, 陈岩, 陈庚,等. 一种码分多址水声多用户接收系统[J]. 声学技术, 2010, 29(1): 9-13. WEI L P,CHEN Y,CHEN G,et al. An underwater acoustic multi-user receiver based on CDMA and space-time filtering and equalization [J]. Technical Acoustics, 2010, 29(1): 9-13. (in Chinese) [20] 韩晶, 黄建国, 何成兵. DS-CDMA水声通信多用户检测空时自适应均衡算法[J]. 西北工业大学学报, 2010, 28(3): 398-403. HAN J,HUANG J G,HE C B. Adaptive multiuser detection space-time equalization algorithms for DS-CDMA underwater communication system [J]. Journal of Northwestern Polytechnical University, 2010, 28(3): 398-403. (in Chinese) [21] 殷敬伟, 杨森, 杜鹏宇,等. 基于单矢量有源平均声强器的码分多址水声通信[J]. 物理学报, 2011, 61(6): 1-7. YIN J W,YANG S,DU P Y,et al. Code divided multiple access underwater acoustic communication based on active acoustic intensity average [J]. Acta Physica Sinica, 2011, 61(6): 1-7. (in Chinese) [22] YIN J W,DU P Y,YANG G,et al. Space-division multiple access for CDMA multiuser underwater acoustic communications [J]. Journal of Systems Engineering and Electronics, 2015, 26(6): 1184-1190. [23] 袁飞, 林晓阳, 程恩. 虚拟时间反转镜啁啾率键控的水声多用户通信[J]. 声学学报, 2015, 40(4): 529-536. YUAN F,LIN X Y,CHENG E. Virtual time reversal mirror chirp rate keying for multi-user underwater acoustic communication [J]. Acta Acoustica, 2015, 40(4): 529-536. (in Chinese) [24] 马璐, 刘淞佐, 乔钢. 水声正交频分多址上行通信稀疏信道估计与导频优化[J]. 物理学报, 2015, 64(15): 154304. MA L,LIU S Z,QIAO G. Sparse channel estimation and pilot optimization for underwater acoustic orthogonal frequency division multiple access uplink communications [J]. Acta Physica Sinica, 2015, 64(15): 154304.(in Chinese) [25] MA L,ZHOU S L,QIAO G,et al. Superposition coding for downlink underwater acoustic OFDM [J]. IEEE Journal of Oceanic Engineering, 2017, 42(1): 175-187. [26] BAEK C U,JUNG J W,DO D W. Study on the structure of an efficient receiver for covert underwater communication using direct sequence spread spectrum [J]. Applied Sciences, 2018, 8(1): 1-10. [27] YANG T C. Spatially multiplexed CDMA multiuser underwater acoustic communications [J]. IEEE Journal of Oceanic Engineering, 2016, 41(1): 217-231. [28] YANG G,YIN J W,HUANG D F,et al. A Kalman filter-based blind adaptive multi- user detection algorithm for underwater acoustic networks [J]. IEEE Sensors Journal, 2016, 16(11): 4023-4033. [29] 朱广平, 殷敬伟, 胡思为, 等. 北极典型冰下声信道建模及特性[J]. 声学学报, 2017, 42(2): 152-158. ZHU G P,YIN J W,HU S W,et al. Modeling and characterizing the typical under-ice acoustic channel for the Arctic [J]. Acta Acustica, 2017, 42(2): 152-158.(in Chinese) [30] YIN J W,YANG G,HUANG D F,et al. Blind adaptive multi-user detection for under-ice acoustic communications with mobile interfering users [J]. Journal of the Acoustical Society of America, 2017, 141(1): EL70-EL75. [31] ZHANG X D,WEI W. Blind adaptive multiuser detection based on Kalman filtering [J]. IEEE Transactions on Signal Processing, 2002, 50(1): 87-95. [32] ARABLOUEI R,DOGANCAY K,WERNER S. On the mean-square performance of the constrained LMS algorithm [J]. Signal Processing, 2015, 117: 192-197. [33] DE LAMARE R C, DINIZ P S R. Blind adaptive interference suppression based on set-membership constrained constant-modulus algorithms with dynamic bounds [J]. IEEE Transactions on Signal Processing, 2013,61(5): 1288-1301.
第40卷 第2期2019 年2月兵工学报ACTA ARMAMENTARIIVol.40No.2Feb.2019
|