Recognition of Micromotion Space Targets at Low SNR Based on Complex-Valued Time Convolutional Attention Denoising Recognition Network

IEEE Transactions on Radar Systems Pub Date : 2025-01-08 DOI:10.1109/TRS.2025.3527209

Xueru Bai;Xuchen Mao;Xudong Tian;Feng Zhou

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Abstract

For a micromotion space target, its narrowband radar cross section (RCS) series reflects the characteristics of target shape and motion. In practical scenarios, however, the RCS series of distant targets with weak scattering coefficients suffers from low signal-to-noise ratio (SNR), and performing separate noise suppression and recognition purely on the amplitude results in degraded recognition performance. To tackle this issue, an end-to-end complex-valued (CV) time convolutional attention denoising recognition network, dubbed as CV-TCANet, is proposed. Specifically, the denoising module captures temporal correlation by the CV attention mechanism and calculates the noise mask for denoising; and the recognition module utilizes the CV temporal convolutional network (CV-TCN) for feature extraction and recognition. In addition, a hybrid loss is designed to realize the integration of denoising and recognition, thus preserving target information while denoising and improving the recognition accuracy. Experimental results have proved that the proposed method could achieve satisfying recognition performance at low SNR.

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基于复值时间卷积注意去噪识别网络的低信噪比微动空间目标识别

对于微运动空间目标，其窄带雷达截面（RCS）序列反映了目标的形状和运动特征。但在实际应用中，RCS系列远端目标散射系数较弱，信噪比较低，单纯依靠幅值进行噪声抑制和识别会导致识别性能下降。为了解决这一问题，提出了端到端复值（CV）时间卷积注意力去噪识别网络CV- tcanet。具体来说，去噪模块通过CV注意机制捕获时间相关性，并计算噪声掩模进行去噪；识别模块利用CV时间卷积网络（CV- tcn）进行特征提取和识别。此外，设计了一种混合损失，实现了去噪与识别的融合，在去噪的同时保留了目标信息，提高了识别精度。实验结果表明，该方法在低信噪比下仍能取得令人满意的识别性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Transactions on Radar Systems

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