[1] Xiaoyun Li, Wei Du. Analysis of image motion effect on satellite TDICCD camera image quality. Spacecraft Engineering, 20, 51-55(2011).
[2] Xuxia Zhuang, Zhile Wang, Ningjuan Ruan, et al. Influence analysis of image motion on image quality of satellite-board TDI camera optical system. Spacecraft Recovery & Remote Sensing, 34, 66-73(2013).
[3] Zhaocong Wu, Fan Yang, Yuan Wu, et al. The influence of elevation on the TDICCD camera’s image motion compensation. Geomatics and Information Science of Wuhan University, 12, 1571-1574(2015).
[4] Liang Chen, Chunxia Liu, Xinghui Gong. Image shift and compensation of TDI CCD camera for polar orbit satellite. Journal of Remote Sensing, 6, 35-39(2002).
[5] Jiang Houjun. Highresolution spacebne SAR interferometry f DEM generation updating [D]. Wuhan: Wuhan University, 2012. (in Chinese)
[6] Zhao Wu. An application analysis to SIFT Harris cner detect f feature points extraction [D]. Shong: Shong Nmal University, 2016. (in Chinese)
[7] Hongjun Li, Shuyan Xu, Dejie Yan. Research of remote sensing image matching with sub-pixel accuracy. Laser Technology, 32, 493-495(2008).
[8] Hengyi Lv, Xucheng Xue, Yunlong Zhao, et al. Measurement and experiment of modulation transfer at Nyquist frequency for space optical cameras. Optics and Precision Engineering, 23, 1484-1489(2015).
[9] Zhou Hu, Wang Xiaoyong. Simulation of the influence of integration time asynchrony on image quality of TICCD space camera [C]Proceeding of the 23rd National Space Explation Academic Exchange Conference, 2010: 1116.
[10] H S Wong, Y L Yao, E S Schlig. TDI charge-coupled devices: design and applications. IBM Journal of Research and Development, 36, 83-85(1992).
[11] Chao Fan, Yingcai Li, Hongwei Yi. Influence of velocity-height ratio of satellite on the TDICCD camera. Acta Armamentarii, 28, 35-39(2007).