[3] HAN Li, LIU Shu-tian, WANG Qi, et al. The performance of fractional correlation applied in distortion-invariant pattern recognition [J]. Acta Photonica Sinca, 2000, 29(2): 131-136.
[5] BONE P, YOUNG R, CHATWIN C. Position rotation scale and orientation-invariant multiple object recognition from cluttered scenes [J]. Optical Engineering, 2006, 45(7): 1-8.
[6] SADJADI F A, MAHALANOBIS A. Target-adaptive polar metric synthetic aperture radar target discrimination using maximum average correlation height filters [J]. Applied Optics, 2006, 45(13): 3036-3070.
[7] MAHALANOBIS A, KUMAR B V K V, FRANKOT R T. Intra-class and between-class training-image registration for correlation-filter synthesis [J]. Applied Optics, 2000, 39(17): 2918-2924.
[8] SHANG Ji-yang, ZHANG Yu, CHEN Chi, et al. Distorted target recognition based on wavelet-modified maximum average correlation height (MACH) algorithm [J]. Journal of Scientific Instrument, 2011, 32(9): 2057-2065.
[9] SHAO Jun, HUA Wen-shen, ZHOU Zhong-liang, et al. Optical correlation image recognition technology to resist scale distortion [J]. Journal of Applied Optics, 2008, 29(4): 504-507.
[12] SU Yan-ming, QI Min, LI Da-jian, et al. Image correlation matching algorithms and infrared target tracking [J]. Computer Simulation, 2011, 28(9): 46-49.
[13] QIAN Xiao-liang, GUO Lei, YU Bo. Adaptive Gaussian filter based on object scale [J]. Computer Engineering and Applications, 2010, 46(12): 14-16.
[15] KUMAR B V K V, DANIEL W C. Optimal trade-off synthetic discriminant function filters for arbitrary devices [J]. Optical Society of America, 1994, 19(10): 1556-1558.