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    Journals >Infrared and Laser Engineering >Volume 50 >Issue 6 >Page 20200531 > Article
    • Infrared and Laser Engineering
    • Vol. 50, Issue 6, 20200531 (2021)
    SAR target recognition using feature fusion by 2D compressive sensing with multiple random projection matrices
    Jianbo Wu, Zhengwu Lu, Yurong Guan, Qingdong Wang, and Guosong Jiang*
    Author Affiliations
  • College of Computer Science, Huanggang Normal University, Huanggang 438000, China
    • show less
    DOI: 10.3788/IRLA20200531 Cite this Article
    Jianbo Wu, Zhengwu Lu, Yurong Guan, Qingdong Wang, Guosong Jiang. SAR target recognition using feature fusion by 2D compressive sensing with multiple random projection matrices[J]. Infrared and Laser Engineering, 2021, 50(6): 20200531 Copy Citation Text show less
    References

    [1] K El-Darymli, E W Gill, P McGuire, et al. Automatic target recognition in synthetic aperture radar imagery: A state-of-the-art review. IEEE Access, 4, 6014-6058(2016).

    [2] G C Anagnostopoulos. SVM-based target recognition from synthetic aperture radar images using target region outline descriptors. Nonlinear Analysis, 71, 2934-2939(2009).

    [3] Qing Xie, Hong Zhang. Multi-level SAR image enhancement based on regularization with application to target recognition. Journal of Electronic Measurement and Instrumentation, 32, 157-162(2018).

    [4] S Papson, R M Narayanan. Classification via the shadow region in SAR imagery. IEEE Transactions on Aerospace and Electronic System, 40, 969-980(2012).

    [5] Hui Li. SAR target recognition based on Gaussian mixture modeling of peak features. Journal of Electronic Measurement and Instrumentation, 32, 103-108(2018).

    [6] Baiyuan Ding, Gongjian Wen, Liansheng Yu, et al. Matching of attributed scattering center and its application to synthetic aperture radar automatic target recognition. Journal of Radar, 6, 157-166(2017).

    [7] B Y Ding, G J Wen, J R Zhong, et al. A robust similarity measure for attributed scattering center sets with application to SAR ATR. Neurocomputing, 219, 130-143(2017).

    [8] Rui Zhang, Jun Hong, Feng Ming. Full polarimetry SAR ATR algorithm based on polarimetry similarity. Foreign Electronic Measurement Technology, 29, 24-27(2010).

    [9] Mishra A K, Motaung T. Application of linear nonlinear PCA to SAR ATR[C]25th International Conference Radioelektronika, 2015: 16.

    [10] Wenhong Li, Jianguo Wang. SAR images target recognition based on bilateral two-dimensional principal component analysis and probabilistic neural network ensemble. Journal of CAEIT, 9, 401-407(2014).

    [11] Z Y Cui, Z J Cao, J Y Yang, et al. Target recognition in synthetic aperture radar via non-negative matrix factorization. IET Radar, Sonar and Navigation, 9, 1376-1385(2015).

    [12] G G Dong, G Y Kuang, N Wang, et al. SAR target recognition via joint sparse representation of monogenic signal. IEEE Journal of Selected Topics Applied Earth Observation and Remote Sensing, 8, 3316-3328(2015).

    [13] Xiaowen Liu, Juncheng Lei, Yanpeng Wu. Synthetic aperture radara target recognition based on bidimensional empirical mode decomposition. Laser and Optoelectronics Progress, 57, 041004(2020).

    [14] Yan Hao, Yanping Ai, Xiaofei Zhang. Synthetic aperture radar target recognition based on KNN. Fire Control & Command Control, 43, 113-115+120(2018).

    [15] Changqing Liu, Bo Chen, Zhouhao Pan, et al. Research on target recognition technique via simulation SAR and SVM classifier. Journal of CAEIT, 11, 257-262(2016).

    [16] H C Liu, S T Li. Decision fusion of sparse representation and support vector machine for SAR image target recognition. Neurocomputing, 113, 97-104(2013).

    [17] Thiagaraianm J, Ramamurthy K, Knee P P, et al. Sparse representations f automatic target classification in SAR images[C]4th Communications, Control Signal Processing, 2010: 1–4.

    [18] Ping Han, Huan Wang. Research on the synthetic aperture radar target recognition based on KPCA and sparse representation. Journal of Signal Processing, 29, 1696-1701(2013).

    [19] Xinzheng Zhang, Peikang Huang. SAR ATR based on Bayesian compressive sensing. Systems Engineering and Electronics, 35, 40-44(2013).

    [20] S Z Chen, H P Wang, F Xu, et al. Target classification using the deep convolutional networks for SAR images. IEEE Transactions on Geoscience and Remote Sensing, 54, 4806-4817(2016).

    [21] Panpan Zhang, Haibo Luo, Moran Ju, et al. An improved capsule and its application in target recognition of SAR images. Infrared and Laser Engineering, 49, 20201010(2020).

    [22] Ying Xu, Yu Gu, Dongliang Peng, et al. SAR ATR based on disentangled representation learning generative adversarial networks and support vector machine. Optics and Precision Engineering, 28, 727-735(2020).

    [23] Ding B Y, Wen G J, Ye F, et al. Feature extraction based on 2D compressive sensing f SAR automatic target recognition[C]EUCAP, 2017: 12191223.

    [24] H C Zhang, N M Nasrabadi, Y Zhang, et al. Multi-view automatic target recognition using joint sparse representation. IEEE Transactions on Aerospace and Electronic Systtems., 48, 2481-2497(2012).

    [25] Hong Zhang, Xinlan Zuo, Yao Huang. Feature selection based on the correlation of sparse coefficient vectors with application to SAR target recognition. Laser and Optoelectronics Progress, 57, 141029(2020).

    [26] Guangyu Zhou, Bangquan Liu, Dan Zhang. Target recognition in SAR images based on variational mode decomposition. Remote Sensing for Land and Resources, 32, 33-39(2020).

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    Jianbo Wu, Zhengwu Lu, Yurong Guan, Qingdong Wang, Guosong Jiang. SAR target recognition using feature fusion by 2D compressive sensing with multiple random projection matrices[J]. Infrared and Laser Engineering, 2021, 50(6): 20200531
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