Xiangwei Xing scite author profile

Recent years have witnessed an ever-mounting interest in the research of sparse representation. The framework, Sparse Representation-based Classification (SRC), has been widely applied as a classifier in numerous domains, among which Synthetic Aperture Radar (SAR) target recognition is really challenging because it still is an open problem to interpreting the SAR image. In this paper, SRC is utilized to classify a 10-class moving and stationary target acquisition and recognition (MSTAR) target, which is a standard SAR data set. Before the classification, the sizes of the images need to be normalized to maintain the useful information, target and shadow, and to suppress the speckle noise. Specifically, a preprocessing method is recommended to extract the feature vectors of the image, and the feature vectors of the test samples can be represented by the sparse linear combination of basis vectors generated by the feature vectors of the training samples. Then the sparse representation is solved by l 1 -norm minimization. Finally, the identities of the test samples are inferred by the reconstructive errors calculated through the sparse coefficient. Experimental results demonstrate the good performance of SRC. Additionally, the average recognition rate under different feature spaces and the recognition rate of each target are discussed.

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Synthetic Aperture Radar Target Recognition with Feature Fusion Based on a Stacked Autoencoder

Kang

Leng

et al. 2017

Sensors

102

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Feature extraction is a crucial step for any automatic target recognition process, especially in the interpretation of synthetic aperture radar (SAR) imagery. In order to obtain distinctive features, this paper proposes a feature fusion algorithm for SAR target recognition based on a stacked autoencoder (SAE). The detailed procedure presented in this paper can be summarized as follows: firstly, 23 baseline features and Three-Patch Local Binary Pattern (TPLBP) features are extracted. These features can describe the global and local aspects of the image with less redundancy and more complementarity, providing richer information for feature fusion. Secondly, an effective feature fusion network is designed. Baseline and TPLBP features are cascaded and fed into a SAE. Then, with an unsupervised learning algorithm, the SAE is pre-trained by greedy layer-wise training method. Capable of feature expression, SAE makes the fused features more distinguishable. Finally, the model is fine-tuned by a softmax classifier and applied to the classification of targets. 10-class SAR targets based on Moving and Stationary Target Acquisition and Recognition (MSTAR) dataset got a classification accuracy up to 95.43%, which verifies the effectiveness of the presented algorithm.

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Ship Classification in TerraSAR-X Images With Feature Space Based Sparse Representation

Xing

Zou

et al. 2013

IEEE Geosci. Remote Sensing Lett.

120

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Energy Management Strategy for Grid-Tied Microgrids Considering the Energy Storage Efficiency

Xing

Liu

et al. 2018

IEEE Trans. Ind. Electron.

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Thermochromic properties of W-doped VO 2 thin films deposited by aqueous sol-gel method for adaptive infrared stealth application

Liu

Cheng

Xing

et al. 2016

Infrared Physics & Technology

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Xiangwei Xing

Sparse Representation-Based SAR Image Target Classification on the 10-Class MSTAR Data Set

Synthetic Aperture Radar Target Recognition with Feature Fusion Based on a Stacked Autoencoder

Ship Classification in TerraSAR-X Images With Feature Space Based Sparse Representation

Energy Management Strategy for Grid-Tied Microgrids Considering the Energy Storage Efficiency

Thermochromic properties of W-doped VO 2 thin films deposited by aqueous sol-gel method for adaptive infrared stealth application

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