乔钢,1974年出生,二级教授,博导,哈尔滨工程大学水声工程学院院长,哈尔滨工程大学海洋信息创新中心副主任,黑龙江省声学学会理事长、黑龙江省机器人学会副理事长、中国造船工程学会水中兵器学术委员会委员、水下无人系统学报特邀编委、兵工学报编委、Journal of Marine Science and Application 编委,全国优秀科技工作者、黑龙江省青年科技奖标兵、黑龙江省青年科技奖、中国科协九大代表、黑龙江省龙江工匠、全国高校黄大年式教师团队成员、黑龙江省头雁团队核心成员、黑龙江省青联委员、哈尔滨市政协委员。 研究方向为水下声学... more+ ·邮编: 0140c3c745f0b66683baf49818a5ead5297d9f9d6faaaeb15e014e9188359b9bc4d213d852078a66bf4187ea218a92ded489d2594a3ef824114ce6c059f640dc9612dc48ec6e0507aa9ce622f02e7fe3f14cab3e70cc48e40d92ada1c8935503f45c0ed01eb82c1d763df8daa2a60bed1c7678be753de94521a29672ae3f857f
·传真: 98d6c4863255eb8368b1fc32c5aea32c4cb4b8113b7e29c6f37c3d3248a90253201767d8f40572355d52ed03b434ded2e8bbe28e2985890a421cb6abc28ddff0e70b7864f197ac33f1e81a1012c71c9d9ff242509cbde22857a36ea2d35d206ae445b61258d1e2865d79484a901b74d27b60d6e824f1c29b8aa1506ea16360ca
·通讯/办公地址: 11edf467e7ed690acb006d7b3bc492e9988922c5827511b823cc74641393ef5ff95a56dfeb513132d6956be2a693cbc668f8facc940b2efc3ee7367068c36f19e4d0198e3137c6fc697bb033072928b6bd52d4e431e9e5ba1606e4106e3a51400a4ee84dacf52b9916a3f2b3b4dba66ea8c2ccf0d0cadd6ea05f9e48c100cb00
  • 1999.4-2002.8

    &nbsp水声工程学院&nbsp|&nbsp哈尔滨工程大学&nbsp |&nbsp助教&nbsp |&nbsp1999年4月-2002年8月  &nbsp

  • 2002.9-2004.8

    &nbsp水声工程学院&nbsp|&nbsp哈尔滨工程大学&nbsp |&nbsp讲师&nbsp |&nbsp2002年9月-2004年8月  &nbsp

  • 2004.9-2007.9

    &nbsp水声工程学院&nbsp|&nbsp哈尔滨工程大学&nbsp |&nbsp副教授&nbsp |&nbsp2004年9月-2007年9月&nbsp

  • 1. Biologically inspired covert underwater acoustic communication-A review./PHYSICAL COMMUNICATION
  • 2. /Chirp Z-Transform Based Sparse Channel Estimation for Underwater Acoustic OFDM in Clustered Channels.OCEANS 2018 MTS/IEEE Charleston/2019.1/EI会议
  • 3. A Multi-User Detection Scheme Based on Polar Code Construction in Downlink Underwater Acoustic OFDM Communication System.IEEE ACCESS/2019/2019年7卷65973-65981页
  • 4. Low-Complexity Progressive MIMO-OFDM Receiver for Underwater Acoustic Communication/.SYMMETRY-BASEL/2019.3/2019年11卷3期
  • 5. A Low-complexity Orthogonal Matching Pursuit Based Channel Estimation Method For Time-varying Underwater Acoustic OFDM Systems.APPLIED ACOUSTICS/2019.5/2019年148卷246-250页
  • 6. Adaptive Downlink OFDMA System With Low-Overhead and Limited Feedback in Time-Varying Underwater Acoustic Channel.IEEE ACCESS/2019/2019年7卷12729-12741页
  •