Detection and Classification of Maritime Target with Micro-motion Based on CNNs

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Abstract In this paper, Convolutional Neural Networks (CNN) are used to detect and classify micro-Doppler effects of maritime targets by using generalized learning ability for high-dimensional features. Based on the micro-motion model of maritime targets, two-dimensional time-frequency maps of four types of micro-motion signals are constructed in the measured sea clutter background. These maps were used as training and test datasets. Furthermore, three types of CNN models, i.e., LeNet, AlexNet, and GoogleNet, are used in binary detection and multiple micro-motion classifications. The effects of signal-to-noise ratio on detection and classification performance are also studied. Compared with the traditional support vector machine method, the proposed method can learn the micro-motion features intelligently, and has performed better in detection and classification. Thus, this study can provide a new technical approach for radar target detection and recognition under a cluttered background.

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	Su Ningyuan
	Chen Xiaolong
	Guan Jian
	Mou Xiaoqian
	Liu Ningbo

Key words： Micro-Doppler Radar target detection Deep learning Convolutional Neural Network (CNN) Sea Clutter Time-frequency analysis

Received: 2018-09-14; Published: 2018-10-30

Fund: The National Natural Science Foundation of China (61871391, 61501487, 61871392, U1633122, 61471382, 61531020), National Defense Science Foundation (2102024), Scientific Research Development of Shandong (J17KB139), Special Funds of Taishan Scholars of Shandong and Young Elite Scientist Sponsorship Program of CAST (YESS20160115)

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Su Ningyuan,Chen Xiaolong,Guan Jian et al. Detection and Classification of Maritime Target with Micro-motion Based on CNNs[J]. JOURNAL OF RADARS, 2018, 7(5): 565-574.

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[10]	Xu Feng, Wang Haipeng, Jin Yaqiu. Deep Learning as Applied in SAR Target Recognition and Terrain Classification[J]. JOURNAL OF RADARS, 2017, 6(2): 136-148.
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