[1] |
徐冠华, 田国良, 王超 ,等. 遥感信息科学的进展和展望[J]. 地理学报, 1996,63(5): 385-397.
|
|
XU G H , TIAN G L , WANG C ,et al. Remote sensing information science: Progress and prospect[J]. Acta Geographica Sinica, 1996,63(5): 385-397.
|
[2] |
李德仁 . 论空天地一体化对地观测网络[J]. 地球信息科学学报, 2012,14(4): 419-425.
|
|
LI D R . On space-air-ground integrated earth observation network[J]. Journal of Geo-Information Science, 2012,14(4): 419-425.
|
[3] |
黄露, 王爱华, 陈君 ,等. 国产卫星遥感技术在自然资源调查监测中的应用[J]. 地理空间信息, 2020,18(5): 73-75+7.
|
|
HUANG L , WANG A H , CHEN J ,et al. Application of domestic satellite remote sensing technology in natural resource survey and monitoring[J]. Geospatial Information, 2020,18(5): 73-75+7.
|
[4] |
陈世平 . 景物和成像条件对遥感图像品质的影响[J]. 航天返回与遥感, 2010,31(1): 1-10.
|
|
CHEN S P . The effects on remote sensing image quality from scenes and imaging conditions[J]. Spacecraft Recovery & Remote Sensing, 2010,31(1): 1-10.
|
[5] |
刘锋, 李琳, 孟新 . 遥感卫星系统能力指标体系构建模式研究[J]. 航天返回与遥感, 2017,38(6): 40-45.
|
|
LIU F , LI L , MENG X . Research on construction model of the capacity index system for remote sensing satellite system[J]. Spacecraft Recovery & Remote Sensing, 2017,38(6): 40-45.
|
[6] |
田志新, 汤海涛, 王中果 ,等. 基于星上动态指令调度的卫星使用效能提升技术[J]. 宇航学报, 2014,35(10): 1105-1113.
|
|
TIAN Z X , TANG H T , WANG Z G ,et al. Satellite utility improvement technique based on dynamic on board command scheduling[J]. Journal of Astronautics, 2014,35(10): 1105-1113.
|
[7] |
李德仁, 王密 . 高分辨率光学卫星测绘技术综述[J]. 航天返回与遥感, 2020,41(2): 1-11.
|
|
LI D R , WANG M . A review of high resolution optical satellite surveying and mapping technology[J]. Spacecraft Recovery &Remote Sensing, 2020,41(2): 1-11.
|
[8] |
李增元, 覃先林, 高志海 ,等. 高分遥感林业应用研究[J]. 卫星应用, 2018(11): 61-65.
|
|
LI Z Y , QIN X L , GAO Z H ,et al. Research on forestry application with high resolution remote sensing[J]. Satellite Application, 2018(11): 61-65.
|
[9] |
童旭东 . 中国高分辨率对地观测系统重大专项建设进展[J]. 遥感学报, 2016,20(5): 775-780.
|
|
TONG X D . Development of China high-resolution earth observation system[J]. Journal of Remote Sensing, 2016,20(5): 775-780.
|
[10] |
曹海翊, 张新伟, 赵晨光 ,等. 高分七号卫星总体设计与技术创新[J]. 中国空间科学技术, 2020,40(5): 1-9.
|
|
CAO H Y , ZHANG X W , ZHAO C G ,et al. System design and key technolongies of the GF-7 satellite[J]. Chinese Space Science and Technology, 2020,40(5): 1-9.
|
[11] |
张驰, 刘杰, 王振兴 ,等. 高分三号卫星自主任务规划设计与在轨验证[J]. 航天器工程, 2017,26(6): 29-33.
|
|
ZHANG C , LIU J , WANG Z X ,et al. Design and on-orbit verification of task self-arrangement for GF-3 satellite[J]. Spacecraft Engineering, 2017,26(6): 29-33.
|
[12] |
陆春玲, 王瑞, 尹欢 . “高分一号”卫星遥感成像特性[J]. 航天返回与遥感, 2014,35(4): 67-73.
|
|
LU C L , WANG R , YIN H . GF-1 satellite remote sensing characters[J]. Spacecraft Recovery & Remote Sensing, 2014,35(4): 67-73.
|
[13] |
孙伟伟, 杨刚, 陈超 ,等. 中国地球观测遥感卫星发展现状及文献分析[J]. 遥感学报, 2020,24(5): 479-510.
|
|
SUN W W , YANG G , CHEN C ,et al. Development status and literature analysis of China's earth observation remote sensing satellites[J]. Journal of Remote Sensing, 2020,24(5): 479-510.
|
[14] |
郑小松, 李立, 张雨 ,等. 高分七号卫星数据处理与传输分系统设计与验证[J]. 航天器工程, 2020,29(3): 74-81.
|
|
ZHENG X S , LI l , ZHANG Y ,et al. Design and verification of data processing and transmission subsystem on GF-7 satellite[J]. Spacecraft Engineering, 2020,29(3): 74-81.
|
[15] |
韩宇, 袁素春, 张建华 ,等. 高分七号卫星图像压缩FPGA设计与实现技术[J]. 航天器工程, 2020,29(3): 169-176.
|
|
HAN Y , YUAN S C , ZHANG J H ,et al. Design and implementation technology of compression coder with FPGA on GF-7 satellite[J]. Spacecraft Engineering, 2020,29(3): 169-176.
|
[16] |
高卫斌, 冉承其 . 遥感卫星数据传输技术发展分析[J]. 中国空间科学技术, 2005(6): 30-36.
|
|
GAO W B , RAN C Q . The analysis on technology development of data transmission in remote sensing satellites[J]. Chinese Space Science and Technology, 2005(6): 30-36.
|
[17] |
向尚, 陈盈果, 李国梁 ,等. 卫星自主与协同任务调度规划综述[J]. 自动化学报, 2019,45(2): 252-264.
|
|
XIANG S , CHEN Y G , LI G L ,et al. Review on satellite autonomous and collaborative task scheduling planning[J]. Acta Automatica Sinica, 2019,45(2): 252-264.
|
[18] |
王万玉, 毛伟, 何元春 . 遥感卫星星地链路数据传输技术分析[J]. 物联网技术, 2017,7(7): 33-36.
|
|
WANG W Y , MAO W , HE Y C . Analysis of remote sensing satellite data transmission technology on satellite-ground link[J]. Internet of Things Technologies, 2017,7(7): 33-36.
|
[19] |
吴巍 . 天地一体化信息网络发展综述[J]. 天地一体化信息网络, 2020,1(1): 1-16.
|
|
WU W . Survey on the development of space-integrated-ground information network[J]. Space-Integrated-Ground Information Networks, 2020,1(1): 1-16.
|
[20] |
郑作亚, 薛庆昊, 仇林遥 ,等. 基于网络信息体系思维的天地一体通导遥融合应用探讨[J]. 中国电子科学研究院学报, 2020,15(8): 709-714.
|
|
ZHENG Z Y , XUE Q H , QIU L Y ,et al. Discussion on integration application of communication navigation remote-sensing with the idea of network information system of system[J]. Journal of CAEIT, 2020,15(8): 709-714.
|
[21] |
曹哲, 尤政 . 微小卫星能量平衡精细化分析方法[J]. 南京理工大学学报, 2018,42(2): 169-176.
|
|
CAO Z , YOU Z . Refine energy balance analysis for microsatellite[J]. Journal of Nanjing University of Science and Technology, 2018,42(2): 169-176.
|
[22] |
邹湘文, 潘孟春, 陈棣湘 ,等. 卫星电源分系统的联合仿真[J]. 计算机仿真, 2007(7): 69-73.
|
|
ZOU X W , PAN M C , CHEN D X ,et al. Co-simulation of satellite electrical power system[J]. Computer Simulation, 2007(7): 69-73.
|
[23] |
田海波, 陈利军, 张宏伟 ,等. 全球4D数据产品研制[J]. 测绘通报, 2020(7): 1-4+21.
|
|
TIAN H B , CHEN L J , ZHANG H W ,et al. Preliminary study on global 4D data product development[J]. Bulletin of Surveying and Mapping, 2020(7): 1-4+21.
|