[1] Merriam S, Frye D, Catipovic J. Performance of an MFSK acoustic telemetry system[C]∥Oceans'92 Mastering the Oceans Through Technology. Newport, Rhode Island: IEEE, 1992: 928-930. [2] 朱维庆,朱敏,武岩波,等.载人潜水器“蛟龙”号的水声通信信号处理[J].声学学报,2012,37(6):565-573. ZHU Wei-qing, ZHU min, WU Yan-bo, et al. Signal processing in underwater acoustic communication system for manned deep submersible “Jiaolong”[J]. Acta Acoustica, 2012,37(6):565-573.(in Chinese) [3] 苏军,乔钢,陈刚,等.APSK在基于OFDM的水声通信系统中的应用研究[J].通信电声,2008,32(3):73-75. SU Jun, QIAO Gang, CHEN Gang, et al. Application of APSK in UWA communication based on OFDM[J]. Communication Electroacoustics, 2008,32(3):73-75. (in Chinese) [4] 殷敬伟,王驰,潘争荣,等.基于MDAPSK的OFDM水声通信研究[J].华中科技大学学报:自然科学版,2013,41(3):20-24. YIN Jing-wei, WANG Chi, PAN Zheng-rong, et al. Research on OFDM underwater communication based on MDAPSK[J].Journal of Huazhong University of Science and Technology: Natural Science Edition, 2013, 41(3):20-24. (in Chinese) [5] 惠俊英,惠娟.矢量声信号处理基础[M].北京:国防工业出版社,2009. HUI Jun-ying, HUI Juan. Vector acoustic signal processing foundation[M].Beijing: National Defense Industry Press, 2009. (in Chinese) [6] 王大宇,赵安邦,惠俊英,等.基于矢量传感器的水下双址接入研究[J].声学学报,2010,35(5):547-553. WANG Da-yu, ZHAO An-bang, HUI Jun-ying, et al. Research on underwater double-address access based on vector sensor[J]. Acta Acoustica, 2010,35(5):547-553.(in Chinese) [7] 桑恩方,乔钢.基于声矢量传感器的水声通信技术研究[J].声学学报,2006,31(1):61-67. SANG En-fang, QIAO Gang. The study of underwater acoustic communication technology[J].Acta Acoustica, 2006,31(1):61-67.(in Chinese) [8] 陈川,王大宇.矢量水听器在水声通信系统中的应用[J].声学技术,2012,31(4):375-380. CHEN Chuan, WANG Da-yu. The application of vector hydrophone in underwater communication system[J]. Technical Acoustics, 2012,31(4):375-380.(in Chinese) [9] 刘凇佐,周峰,孙宗鑫,等.单矢量水听器OFDM水声通信技术实验[J].哈尔滨工程大学学报,2012,33(8):941-947. LIU Song-zuo, ZHOU Feng,SUN Zong-xin, et al. Experimental study of OFDM underwater acoustic communication using a vector hydrophone[J]. Journal of Harbin Engineering University, 2012,33(8):941-947.(in Chinese) |