[1] D LIU, X D WANG, Y H LI et al. Space target detection in optical image sequences for wide-field surveillance. International Journal of Remote Sensing, 41, 7846-7867(2020).

[2] N JORGE, N ANNA, J FRANCISCO et al. Improving space debris detection in GEO ring using image deconvolution. Advances in Space Research, 56, 218-228(2015).

[3] Yi HAN, Ming CHEN, Jianfeng XIE et al. Simulation & validation of ground-based optical-telescope imaging on target craft. Infrared and Laser Engineering, 48, 1214002(2019).

[4] H TYLER, C STEPHEN, J JAE et al. Improving space domain awareness through unequal-cost multiple hypothesis testing in the space surveillance telescope. Applied Optics, 54, 5481-5494(2015).

[5] B BEKHTI, A FROLICH, O GRENZ et al. First studies towards a cryo-cooled phased array radar system for space surveillance. IOP Conference Series: Materials Science and Engineering, 502, 012294(2019).

[6] Zhenwei LI. Research in optoelectronic observation technologies for space objects(2014).

[7] M Y LI, C X YAN, C H HU et al. Space target detection in complicated situations for wide-field surveillance. IEEE Access, 7, 123658-123670(2019).

[8] H L WANG, J Q WANG, H F DING et al. Moving target detection based on the improved Gaussian mixture model background difference method. Advanced Materials Research, 482, 569-574(2012).

[9] C KWAN, B BUDAVARI. Enhancing small moving target detection performance in low-quality and long-range infrared videos using optical flow techniques. Remote Sensing, 12, 4024(2020).

[10] T YANAGISAWA, A NAKAJIMA, T KIMURA et al. Detection of small GEO debris by use of the stacking method. Transactions of the Japan Society for Aeronautical & Space Sciences, 44, 190-198(2002).

[11] K FUJITA, T HANADA, Y KITAZAWA et al. A debris image tracking using optical flow algorithm. Advances in Space Research, 5, 1007-1018(2012).

[12] J B XI, D S WEN, K OKAN et al. Space debris detection in optical image sequences. Applied Optics, 55, 7929-7940(2016).

[13] K AHMADI, E SALARI. Small dim object tracking using a multi objective particle swarm optimisation technique. Image Processing Iet, 9, 820-826(2015).

[14] X S FAN, Z XU, J ZHANG et al. Dim small targets detection based on self-adaptive caliber temporal-spatialfiltering. Infrared Physics & Technology, 85, 465-477(2017).

[15] D G LOWE. Distinctive image features from Scale-Invariant key points. International Journal of Computer Vision, 60, 91-110(2004).

[16] Wen PANG. Research on space-based visible-light space target detection and recognition, 16-23(2014).

[17] A NOVIKOV, P PÉREZ. Optimal multistage sequential hypothesis testing. Journal of Statistical Planning and Inference, 7, 1-12(2019).