[1] Zhang Q J. Optical remote sensing technology progress promoted by ZY-1 series satellites[J]. Spacecraft Recovery & Remote Sensing, 39, 45-54(2018).

[2] Zhang B. A survey of developments on optical remote sensing information technology and applications[J]. Journal of Nanjing University of Information Science & Technology (Natural Science Edition), 10, 1-5(2018).

[3] Li R X, Li G J, Feng T T et al. A review of Antarctic ice velocity products and methods based on optical remote sensing satellite images[J]. Acta Geodaetica et Cartographica Sinica, 51, 953-963(2022).

[4] Min L, Gao K, Li W et al. A review of the optical remote sensing image segmentation technology[J]. Spacecraft Recovery & Remote Sensing, 41, 1-13(2020).

[5] Wang J R, Wang R X, Hu X. Development of optical satellite photogrammetry[J]. Spacecraft Recovery & Remote Sensing, 41, 12-16(2020).

[6] Yang Y X, Wang J R, Lou L S et al. Development status and prospect of satellite-based surveying[J]. Chinese Space Science and Technology, 42, 1-9(2022).

[7] Wang J R, Yang Y X, Hu Y et al. Analysis on status quo and development trend of optical surveying and mapping satellites[J]. Geomatics and Information Science of Wuhan University, 48, 333-338(2023).

[8] Wang R X, Wang J R, Hu X. Analysis of location accuracy without ground control points of optical satellite imagery[J]. Acta Geodaetica et Cartographica Sinica, 46, 332-337(2017).

[9] Gong J Y, Wang M, Yang B. High-precision geometric processing theory and method of high-resolution optical remote sensing satellite imagery without GCP[J]. Acta Geodaetica et Cartographica Sinica, 46, 1255-1261(2017).

[10] Liu J H. Study on the techniques of high precision georeferencing for optical satellite imagery[D](2015).

[11] Tang X M, Cong N. Present situation and development of surveying and mapping satellites in China[J]. Geomatics World, 9, 40-44(2011).

[12] Jin T, Li Z, Li T et al. System design and analysis for improving geometric accuracy of high-resolution optical remote sensing satellite image[J]. Journal of Astronautics, 34, 1159-1165(2013).

[13] Xia Z Q, Huang Q L, He H Y et al. Analysis of geolocation accuracy of high resolution optical remote sensing satellite geometric chain[J]. Spacecraft Recovery & Remote Sensing, 37, 111-119(2016).

[14] Tian H X, Wang T H, Li X et al. On-board time management method of remote sensing satellate[J]. Transducer and Microsystem Technologies, 32, 80-82, 87(2013).

[15] Yuan Y, Wang W P, Pan T. Design of time synchronization system for hard X-ray modulation telescope[J]. Computer Measurement & Control, 26, 160-164, 215(2018).

[16] Wen Y, Zhang M M, Zhang D D et al. Design and application of high precision time synchronization scheme for GF-5 satellite[J]. Journal of Naval Aviation University, 38, 247-256(2023).

[17] Jiang L, Dong S F, Chen Y. Propagation of geostationary satellite time signal and the precision[J]. Science Technology and Engineering, 9, 764-767(2009).

[18] Shi J X, Li P Y, Li H F et al. Scroll imaging of space TDI CCD remote sensing camera and optimazation of image location accuracy[J]. Chinese Journal of Liquid Crystals and Displays, 29, 777-784(2014).

[19] Tang X M, Zhou P, Zhang G et al. Research on a production method of sensor corrected products for ZY-3 satellite[J]. Geomatics and Information Science of Wuhan University, 39, 287-294, 299(2014).

[20] An Y, Su L, He Q M. Method research of application design of high performance LVDS[J]. Spacecraft Recovery & Remote Sensing, 28, 39-45(2007).

[21] Xiao L, Wan M, Li T. Research and implementation of a high-speed digital image data transmission[J]. Spacecraft Recovery & Remote Sensing, 30, 50-55, 69(2009).

[22] Sun K L, Zhou W C, Wu Q Z. Realization of high-speed real-time optical fiber image transmission system[J]. Optics and Precision Engineering, 19, 2228-2235(2011).

[23] Yu S J, Wang J Y. Application of serializer/deserializer in remote sensing camera system[J]. Spacecraft Recovery & Remote Sensing, 33, 93-98(2012).

[24] Xia Q Q, Hu Z W, Zhang Q L. Design and implementation of high speed and reliable transmission platform in fast view system[J]. Optics and Precision Engineering, 26, 971-979(2018).

[25] Feng X Y, Du J X, Hou N et al. A focal length testing method with high accuracy for the optical system[J]. Spacecraft Recovery & Remote Sensing, 41, 101-110(2020).

[26] Fei Y T[M]. Error theory and data processing(2004).

[27] Zhang H Y, Liu A D. Line-scan imaging system based on the linear array TDI-CCD camera[J]. Optics & Optoelectronic Technology, 4, 49-52(2006).

[28] Wan M, Li S, Yu S J et al. Discussion on improved methods of TDICCD clock driving[J]. Spacecraft Recovery & Remote Sensing, 41, 87-95(2020).

[29] Wan M, Li T. A kind of FPGA engineering realization of TDICCD timing design[J]. Spacecraft Recovery & Remote Sensing, 27, 34-40, 27(2006).

[30] Huang Q L[M]. CCD/CMOS photoelectric imaging technology of space optical remote sensor(2021).

[31] Han T T. Research on key technology of high resolution base map making of SuperView-1 satellite image[J]. Beijing Surveying and Mapping, 36, 1069-1073(2022).