抑制底部混响的时空处理

Conference Record of The Twenty-Ninth Asilomar Conference on Signals, Systems and Computers Pub Date : 1995-10-30 DOI:10.1109/ACSSC.1995.540908

H. Cox

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引用次数: 15

摘要

浅水声纳工作的主要问题是在严重的海底混响情况下探测低多普勒目标。用于具有方位全向发射机的现代声纳;底部混响的多普勒与/spl nu/cos /spl theta/成正比，其中/spl nu/为声纳平台的速度，/spl theta/是从船首或航向方向测量的。对于拖曳阵列接收机，各种多普勒到达旁瓣的混响限制了先进波形的有效性。在/spl plusmn//spl nu/的多普勒范围内，这种旁瓣混响的涂抹使得探测速度小于声纳平台的目标变得困难。标准的自适应波束形成算法是无效的，因为需要窄频域以获得良好的多普勒约束和宽频域以实现快速收敛之间的冲突。我们提出了克服这些困难的时空处理算法，并允许从移动平台检测低多普勒目标。

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Space-time processing for suppression of bottom reverberation

The major problem for sonars operating in shallow water is the detection of low Doppler targets in the presence of severe bottom reverberation. For a modern sonar with an azimuthally omni-directional transmitter; the Doppler of bottom reverberation is proportional to /spl nu/cos /spl theta/ where /spl nu/ is the speed of the sonar platform and /spl theta/ is measured from the bow or heading direction. For a towed array receiver, reverberation of various Doppler arriving on sidelobes limits the effectiveness of advanced waveforms. This smearing of sidelobe reverberation over a Doppler range of /spl plusmn//spl nu/ makes it difficult to detect targets with speeds less than that of the sonar platform. Standard adaptive beamforming algorithms are ineffective due to the conflict between desire for narrow frequency bins for good Doppler confinement and wide frequency bins for rapid convergence. We present space-time processing algorithms that overcome these difficulties and permit the detection of low Doppler targets from moving platforms.

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Conference Record of The Twenty-Ninth Asilomar Conference on Signals, Systems and Computers

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