[1] Thompson A R, Moran J M, Jr G W S. Interferometry and synthesis in radio astronomy[M], 872(2011).
[2] Meinel A B. Aperture synthesis using independent telescopes[J]. Applied Optics, 9, 2501-2504(1970).
[3] Meinel A B, Meinel M P. Large sparse aperture space optical systems[J]. Optical Engineering, 41, 1983-1994(2002).
[4] Golay M J E. Point arrays having compact, nonredundant autocorrelations[J]. Journal of the Optical Society of America, 61, 272-273(1971).
[5] Liu L, Jiang Y S. Principle and application of synthetic aperture imaging[M](2013).
[6] Wu Q Y. Study on the sparse aperture optical systems[D](2006).
[7] Xie N, Zhang N, Zhao R et al. Test and analysis of the dynamic procedure for electr owetting-based liquid lens under alternating current voltage[J]. Acta Physica Sinica, 65, 224202(2016).
[8] Zhao R, Hua X G, Tian Z Q et al. Electrowetting-based variable-focus double-liquidlens[J]. Optics and Precision Engineering, 22, 2592-2597(2014).
[9] Hao W Q, Liang Z C, Liu X Y et al. Imaging performance of fractal structure sparse aperture arrays[J]. Acta Physica Sinica, 68, 199501(2019).
[10] Liu X Y, Liang Z C, Hao W Q et al. Imaging characteristics of radial multi-sub-mirror array[J]. Acta Optica Sinica, 39, 0811003(2019).
[11] Guo Y. Optimization of the optical sparse array configuration[D], 1-62(2007).
[12] He Y T, Jiang Y S, Chen H T. Studies of optimization and imaging properties of two-dimensional circle array for mm-wave synthetic aperture system[J]. Journal of Remote Sensing, 11, 33-38(2007).
[13] He Y T, Jiang Y S, Liu G D. Optical synthesis aperture circle-array optimization based on genetic algorithm[J]. Acta Optica Sinica, 27, 1611-1616(2007).
[15] Jang C H, Hu F, He F et al. Circular hexagonal lattice array and its optimization in aperture synthesis radiometers[J]. IEEE Antennas and Wireless Propagation Letters, 16, 685-688(2017).
[16] Li Q, Wu Z, Xu J S et al. Phase recovery algorithm based on pupil diversity[J]. Acta Optica Sinica, 39, 0626001(2019).
[17] Yin H F, Guo L, Yang L C et al. Full aperture imaging algorithm of airborne synthetic aperture ladar[J]. Acta Optica Sinica, 39, 0928002(2019).
[18] Kang L S. Non-numerical parallel algorithm (volume I)-simulated annealing algorithm[M](1994).
[19] Hao S J, Ge F X, Yu X X et al. Optimization of sparse planar arrays with minimum spacing and geographic constraints in smart ocean applications[J]. Sensors, 19, 11(2018).
[20] Wang Y K, Lu Z, Suo Z Y et al. Optimal configuration of spaceborne bistatic SAR with GEO transmitter and LEO receiver[J]. IET Radar, Sonar & Navigation, 13, 229-235(2019).
[21] Shirzaei M, Walter T R. Randomly iterated search and statistical competency as powerful inversion tools for deformation source modeling: application to volcano interferometric synthetic aperture radar data[J]. Journal of Geophysical Research Atmospheres, 114, B10401(2009).
[22] Roumeliotis M, Yates B, Watt E et al. Demonstration of simulated annealing optimization for permanent breast seed implant treatment planning[J]. Brachytherapy, 17, 615-620(2018).
[23] Albrecht A, Steinhöfel K, Taupitz M et al. Logarithmic simulated annealing for X-ray diagnosis[J]. Artificial Intelligence in Medicine, 22, 249-260(2001).
[24] Lu Y K, Yu J J, Yin Z K et al. Polarization-independent multilayer slanted grating with high efficiency and broad spectral and angular bandwidths under normal incidence[J]. Acta Optica Sinica, 40, 1405001(2020).
[25] Lu J C, Li N C, Wang W D. Multi-objective optimization approach based on simulated annealing[J]. Computer Engineering and Applications, 39, 92-94, 144(2003).