[1] Huitao Fan, Hao Cui, Guang Tian. A review on the 70-year development of air-to-air missiles. Aero Weaponry, 3-12(2016).

[2] Huitao Fan, Pengpeng Zhang. The challenges for air-to-air missile. Aero Weaponry, 3-7(2017).

[3] Xiao Lu, Xiaogeng Liang, Xiaohong Jia. Study on intelligent counter-countermeasures of infrared imaging air-to-air missiles. Infrared and Laser Engineering, 50, 20200240(2021).

[4] Gianluca Marsiglia, Luca Ftunato. Template matching techniques f automatic IR target recognition in real simulated scenarios test evaluations [C]Proeeedings of SPIE, 2003, 5094: 159169.

[5] Berg A C, Berg T L, Malik J. Shape matching object recognition using low disttion crespondences [C] 2005 IEEE Computer Society Conference on Computer Vision Pattern Recognition (CVPR 2005), 2005.

[6] S Ullman. Object recognition and segmentation by a fragment-based hierarchy. Trends in Cognitive Sciences, 11, 58-64(2007).

[7] E Elboher, M Werman. Asymmetric correlation: A noise robust similarity measure for template matching. IEEE Transactions on Image Processing, 22, 3062-3073(2013).

[8] H Yang, C Huang, F Wang, et al. Large-scale and rotation-invariant template matching using adaptive radial ring code histograms. Pattern Recognition, 345-356(2019).

[9] C Cortes, V Vapnik. Support-vector networks. Machine Learning, 20, 273-297(1995).

[10] Vapnik V N. Statistical Learning They [M]. New Yk: WileyInterscience, 1998.

[11] Cherkassky V. The nature of statistical learning they [J]. IEEE Transactions on Neural wks, 1997, 8(6): 1564.

[12] Zhang J, Marszalek M, Lazebnik S, et al. Local features kernels f classification of texture object categies: A comprehensive study [C]Conference on Computer Vision & Pattern Recognition Wkshop, 2006.

[13] Zhouchun Wang, Wennan Cui, Tao Zhang. Classification and recognition algorithm for long-wave infrared targets based on support vector machine. Infrared Technology, 43, 153-161(2021).

[14] A Krizhevsky, I Sutskever, G Hinton. ImageNet classification with deep convolutional neural networks. Communications of the ACM, 60, 84-90(2017).

[15] Matthew M D, Fergus R. Visualizing understing convolutional neural wks [C]European Conference on Computer Vision, 2013: 818833.

[16] K Simonyan, A Zisserman. Very deep convolutional networks for large-scale image recognition. Computer Science, arXiv, 1409.1556(2014).

[17] L X Xu, G Liu, S Liu, et al. Research on infrared target recognition based on improved convolution neural network. Fire Control & Command Control, 45, 136-141(2020).

[18] Schlkopf B, Smola A, Müller K R. Kernel principal component analysis [C]International Conference on Artificial Neural wks, 1997: 583588.

[19] Yang Kai, Li Shaoyi, Zhang Kai, et al. Research on antijamming recognition method of aerial infrared target based on naive Bayes classifier[J]. Flight Control & Detection, 2019(4): 6270. (in Chinese)

[20] S Li, K Yang, J Ma, et al. Anti-interference recognition method of aerial infrared targets based on the Bayesian network. Journal of Optics, 50, 264-277(2021).

[21] Xiaolong Qi et al. Learning Bayesian network structures using weakest mutual-information-first strategy. International Journal of Approximate Reasoning, 114, 84-98(2019).

[22] Luo Ling, Yang You, Ma Yan. Research on detecting learning style based on TAN Bayesian wk. Computer Engineering Applications, 2015, 51(6): 4854. (in Chinese)