KONG Xianghao, LI Xiang, CHEN Zhuoyi, YANG Hua, LI Guo. Continuous Observation Oriented Application Mode Design and Analysis for Geostationary-orbit High-resolution Optical Imaging Satellites[J]. Imaging Science and Photochemistry, 2016, 34(1): 43-50.
[1] Vaillon L,Schull U,Knigge T,Bevillon C. Geo-oculus:high resolution multi-spectral earth imaging mission from geostationary orbit[C]. International Conference on Space Optics,2010,10:4-8.
[2] Christian Wenzel. How GEO-HR could improve THWs crisis response[EB/OL]. Technisches Hilfswerk,2013-4-25.
[3] Astrium. GEO-HR product prospectus[EB/OL] 2013-4-25. http://due.esrin.esa.int/files/m300/GEO-HR_ProductProspectus_small.pdf.
[4] Knigge T. GEO-Oculus mission overview: a mission for real-time monitoring through high-resolution imaging from geostationary orbit[R/OL].2009-05-13. http://esamultimedia.esa.int/docs/gsp/complet ed/c21096exs.pdf.
[5] Ryu J,Choi J. Observation on the suspended sediment concentrations in the coastal area using geostationary ocean color imager[C]. 5th EARSeL Workshop on Remote Sensing of the Coastal Zone, 2011.89-93.
[6] Lück W. Novel imaging strategies for a high resolution geostationary optical satellite:africa-geo-sat1[C]. International Astronautical Congress,2013,IAC-11.B1.2.9.
[7] Schull U, Knigge T. GEO-Oculus: a mission for real-time monitoring through high-resolution imaging from geostationary orbit[C]. International Conference on Space Optics,2010.
[8] Britten J. Developing lightweight optics for space[R]. Lawrence Livermore National Laboratory Report,2013.
[9] Denis G. Contribution of earth observation satellites and services to security missions:lessons learnt from latest European studies[C]. 63rd International Astronautical Congress, 2012,IAC-12-b1.6.3.
