中国对地观测20年科技进步和发展

廖小罕

doi:10.11834/jrs.20211017

遥感应用 | 浏览量 : 0 下载量: 2759 CSCD: 19

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中国对地观测20年科技进步和发展
Scientific and technological progress and development prospect of the earth observation in China in the past 20 years
2021年25卷第1期页码：267-275
收稿：2020-10-20，

纸质出版：2021-01-07
DOI： 10.11834/jrs.20211017
稿件说明：

移动端阅览

廖小罕.2021.中国对地观测20年科技进步和发展.遥感学报，25（1）： 267-275 DOI： 10.11834/jrs.20211017.

Liao X H. 2021. Scientific and technological progress and development prospect of the earth observation in China in the past 20 years. National Remote Sensing Bulletin， 25（1）：267-275 DOI： 10.11834/jrs.20211017.

摘要

2000年以来，中国对地观测领域在国家科技计划的支持下，积累了系列关键技术和核心成果。以此为重要引领，支撑形成了气象、海洋、陆地业务化遥感卫星系列和多类别遥感科学实验卫星系列，建立了较为完善的卫星遥感和灵活多样的航空遥感数据获取体系。同时，构建了数据获取、处理和产品服务体系和面向不同需要的应用系统，较大程度上满足主要行业常态化和应急应用需求。特别是国家高技术研究发展计划（863计划）地球观测与导航领域的设立和国家重大科技专项“高分辨率对地观测系统”的实施，系统加强了中国综合对地观测技术和能力。在此基础上通过多边和双边合作，中国对地观测领域在国际上取得了参与全球对地观测进程的主导地位，发展巩固了中欧和中美等重要国际合作渠道。科技人才队伍日益壮大，产学研合作推动遥感科技成果商业化培育环境不断完善，多元化商业遥感卫星初见规模，多类别遥感产品蓬勃发展，涌现出一批代表性企业。面向未来，空天地一体化观测能力、定量化信息获取技术和智能化观测等方面将会得到进一步发展，遥感大数据管理技术和共享服务机制等也将会有新的突破。

Abstract

With the support of the national science and technology programs

China has been gradually accumulateda series of key technologies and core achievements in the field of earth observation since 2000. Taking this as an important lead

it has formed a series of operational remote-sensing satellites for meteorology

marine and land resources

and a series of multi-category remote-sensing scientific experiment satellites. Relatively comprehensive data acquisition systems for satellite andflexible and diverseaerial remote-sensing datawere created. At the same time

the systemsfor data acquisition

processing

product services and applications oriented to different needs weredeveloped to meet daily and emergency needs of major industries. In particular

the establishment of the earth observation and navigation field in the National High Technology Research and Development Program (namely 863 Program) and the implementation of the National Major Science and Technology Project “China High-Resolution Earth Observation System(CHEOS)” have systematically strengthened China’s overall earth observation technology and capability. Through multi-lateral and bilateral internationalcooperation

China started to play a leading role in the global earth observation process

and has developed and consolidated important international cooperation channels such as Sino-EU

Sino-US. With the continuous development of talent teams

the cultivation environment for industry-university-research cooperation promoting the commercialization of remote-sensing scientific and technological achievements has being constantly improved

and a number of leading enterprises have emerged. Diversified commercial remote-sensing satellites have begun to take shape

and various types of remote-sensing products were booming

and a number of typical enterprises have emerged. In the future

the space-air-ground integrated observation capability

quantitative information acquisition technology

and intelligent observation will be further developed. The remote-sensing big data management technology and the sharing service mechanism will also have new breakthroughs.

关键词

Keywords

references

Bouvet M , Thome K , Berthelot B , Bialek A , Czapla-Myers J , Fox N P , Goryl P , Henry P , Ma L , Marcq S , Meygret A , Wenny B N , Woolliams E R . 2019 . RadCalNet: A Radiometric Calibration Network for Earth Observing Imagers Operating in the Visible to Shortwave Infrared Spectral Range . Remote Sensing , 11 ( 2401 ): 1 - 25 [ DOI: 10.3390/rs11202401 http://dx.doi.org/10.3390/rs11202401 ]

Chen J , Chen J , Liao A P , Cao X , Chen L J , Chen X H , He C Y , Han G , Peng S , Lu M , Zhang W W , Mills J . 2015 . Global land cover mapping at 30 m resolution: A POK-based operational approach . ISPRS Journal of Photogrammetry and Remote Sensing , 103 : 7 - 27 . ( 1016 /j . isprsjprs . 2014 . 09 . 002 )

Chen S P . 2002 . Some new ideas of space remote sensing application . Aerospace China , ( 01 ): 3 - 8 .

陈述彭 . 2002 . 航天遥感应用的若干新理念.中国航天, (01): 3 - 8

Desnos YL , Bergquist K , Li Z Y . 2004 . Cooperation between European Space Agency (ESA) and China in remote sensing earth observation: Dragon program . Remote sensing information . 04 : 78 - 79

Desnos YL , Bergquist K , 李增元 . 2004 . 欧洲空间局(ESA)与中国在遥感对地观测领域的合作:龙计划 . 遥感信息 , 04 : 78 - 79

Fox N , Green P , Brindley H , Russell J , Smith D , Lobb D , Cutter M and Barnes A . 2014 . Traceable radiometry underpinning terrestrial and heliostudies (TRUTHS): a bencmark mission for climate // Proceedings of the SPIE 10563 , International Conference on Space Optics. Tenerife : SPIE : 1056325 [DOI: 10.1117/12.2304220 ]

Gong P , Liu H , Zhang M N , Li C C , Wang J , Huang H B , Clinton N , Ji L Y , Li W Y , Bai Y Q , Chen B , Xu B , Zhu Z L , Yuan C , Suen H P , Guo J , Xu N , Li W J , Zhao Y Y , Yang J , Yu C Q , Wang X , Fu H H , Yu L , Dronova I , Hui F M , Cheng X , Shi X L , Xiao F J , Liu Q F , Song L C . 2019 . Stable classification with limited sample: transferring a 30-m resolution sample set collected in 2015 to mapping 10-m resolution global land cover in 2017 . Science Bulletin , 64 ( 6 ): 370 - 373 .

Gong J Y and Zhong Y F . 2016 . Survey of intelligent optical remote sensing image processing . Journal of Remote Sensing , 20 ( 5 ): 733 - 747

龚健雅 , 钟燕飞 . 2016 . 光学遥感影像智能化处理研究进展 . 遥感学报 , 20 ( 5 ): 733- 747 [ DOI: 10.11834/jrs.20166205 http://dx.doi.org/10.11834/jrs.20166205 ]

Gu X F and Tong X D . 2015 . Overview of China earth observation satelliteprograms [space agencies] . IEEE Geoscience and RemoteSensing Magazine , 3 ( 3 ): 113 - 129 [ DOI: 10.1109/MGRS.2015.2467172 http://dx.doi.org/10.1109/MGRS.2015.2467172 ]

Guo H D , Liu G , Liang D , Zhang L , Xiao H . 2018, Progress of Earth Observation in China . Chinese Journal of Space Science , 38 ( 5 ): 797 - 809 . [ DOI: 10.11728/cjss2018.05.797 http://dx.doi.org/10.11728/cjss2018.05.797 ]

Guo H D , Wang L Z , Liang D . 2016 . Big Earth Data from space: a new engine for Earth science . Sci. Bull . 61 , 505 – 513 . [ DOI: 10.1007/s11434-016-1041-y http://dx.doi.org/10.1007/s11434-016-1041-y ]

Jiang Y H , Wang J Y , Zhang L , Zhang G , Li X and Wu J Q . 2019 . Geometricprocessing and accuracy verification of Zhuhai-1 hyperspectralsatellites . Remote Sensing , 11 ( 9 ): 996 [ DOI: 10.3390/rs11090996 http://dx.doi.org/10.3390/rs11090996 ]

Jiang X W , He X Q , Lin M S , Gong F , Ye X M and Pan D L . 2019 . Progresseson ocean satellite remote sensing application in China . Acta Oceanologica sinica , 41 ( 10 ): 113 - 124

蒋兴伟 , 何贤强 , 林明森 , 龚芳 , 叶小敏 , 潘德炉 . 2019 . 中国海洋卫星遥感应用进展 . 海洋学报 , 41 ( 10 ): 113- 124 [ DOI: 10.3969/j.issn.0253-4193.2019.10.007 http://dx.doi.org/10.3969/j.issn.0253-4193.2019.10.007 ]

Ministry of Science and Technology . Report on scientific and technological development in the field of earth observation and navigation in the past decade . Beijing : Science and Technology Literature Press , 2012

科学技术部 . 这十年——地球观测与导航领域科技发展报告 . 北京：科学技术文献出版社 , 2012

Li C R . 2016 . The research and development of highresolutionremote sensing comprehensive calibration technologysystem promotes the new stage of China’s remotesensing industry entering development . Science &Technology for Development , 12 ( 3 ): 371 - 376

李传荣 . 2016 . 高分辨遥感综合定标技术系统的研发助推中国遥感产业进入发展新阶段 . 科技促进发展 , 12 ( 3 ): 371 - 376

Li D R and Shen X . 2005 . On intelligent earth observation systems . Science of Surveying and Mapping , 30 ( 4 ): 9 - 11

李德仁 , 沈欣 . 2005 . 论智能化对地观测系统 . 测绘科学 , 30 ( 4 ): 9 - 11

Li D R , Zhang L P , Xia G S . 2014 . Automatic analysis and mining ofremote sensing big data . Acta Geodaetic aet Cartographica Sinica , 43 ( 12 ): 1211 - 1216

李德仁 , 张良培 , 夏桂松 . 2014 . 遥感大数据自动分析与数据挖掘 . 测绘学报 , 43 ( 12 ): 1211- 1216 [ DOI: 10.13485/j.cnki.11-2089.2014.0187 http://dx.doi.org/10.13485/j.cnki.11-2089.2014.0187 ]

Li D R , Zhang G , Shen X , Zhong X , Jiang Y H , Wang T Y , Tu J G and Li Z J . 2019 . Design and processing nightlight remote sensing of LJ-1 01 satellite . Journal of Remote Sensing , 23 ( 6 ): 1011 – 1022

李德仁 , 张过 , 沈欣 , 钟兴 , 蒋永华 , 汪韬阳 , 涂建光 , 李治江 . 2019 . 珞珈一号01星夜光遥感设计与处理 . 遥感学报 , 23 ( 6 ): 1011–1022 [ DOI: 10.11834/jrs.20199327 http://dx.doi.org/10.11834/jrs.20199327 ]

Li J H and Shi J C . 2016 . Report of global ecosystems and environment observation analysis research cooperation in 2016 --- The Belt and Road Initiative Ecological and Environmental Conditions. Beijing : Science Press

李加洪 , 施建成 . 2016 . “ 一带一路”生态环境遥感监测丛书 (2015)全球生态环境遥感监测报告 . 北京 : 科学出版社

Li S . 2013 . China successfully launched kuaizhou-1 satellite. China aerospace, 10:22（李淑 . 2013 . 中国成功发射快舟一号卫星 . 中国航天 , 10 : 22 ）

Li X W, Wang Y T . Prospects on future developments of quantitative remote sensing. Journal ofGeography . 68 ( 09 ): 1163 - 1169 李小文 , 王祎婷 . 2013 . 定量遥感尺度效应刍议 . 地理学报 , 68 ( 09 ): 1163- 1169 ）

Liao X H . 2020 . Advance of geographic sciences and new technology applications . Progress in Geography , 39 ( 5 ): 709 - 715 .

廖小罕 . 2020 . 地理科学发展与新技术应用 . 地理科学进展 , 39 ( 5 ): 709- 715 [ DOI: 10.18306/dlkxjz.2020.05.001 http://dx.doi.org/10.18306/dlkxjz.2020.05.001 ]

Liao X H and Shi J C . 2015 . Report of global ecosystems and environment observation analysis research cooperation in 2014 . Beijing : Science Press

廖小罕 , 施建成 . 2015 . 全球生态环境遥感监测2014年度报告 . 北京 : 科学出版社

Liao X H , Yue H Y , Liu R G , Luo X Y , Luo B , Lu M , Ryan B , Ye H P . 2019 . Launching an unmanned aerial vehicle remote sensing data carrier: concept, key components and prospects . International Journal of Digital Earth , 1 - 14 [ DOI: 10.1080/17538947.2019.1698664 http://dx.doi.org/10.1080/17538947.2019.1698664 ]

Liao X H , Xiao Q and Zhang H . 2019 . UAV remote sensing : Popularization and expand application development trend. Journal of Remote Sensing , 23 ( 6 ): 1046 – 1052

廖小罕 , 肖青 , 张颢 . 2019 . 无人机遥感：大众化与拓展应用发展趋势 . 遥感学报 , 23 ( 6 ): 1046- 1052 [ DOI: 10.11834/jrs.20199422 http://dx.doi.org/10.11834/jrs.20199422 ]

Liao X H , Zhang Y , Su F Z , Yue H Y , Ding Z and Liu J L . 2018 . UAVs surpassing satellites and aircraft in remote sensing over China , International Journal of Remote Sensing , 39 ( 21 ): 7138 - 7153 . [ DOI: 10.1080/01431161.2018.1515511 http://dx.doi.org/10.1080/01431161.2018.1515511 ]

Liao X H , Zhou C H . Light-smallUAV remote sensing development report . Beijing : Science Press , 2016 .

廖小罕 , 周成虎 . 轻小型无人机遥感发展报告 . 北京 : 科学出版社 , 2016

Liang S L ， Bai R ， Chen X N ， Cheng J ， Fan W J ， He T ， Jia K ， Jiang B ， Jiang L M ， Jiao Z T ， Liu Y B ， Ni W J ， Qiu F ， Song L L ， Sun L ， Tang B H ， Wen J G ， Wu G P ， Xie D H ， Yao Y J ， Yuan W P ， Zhang Y G ， Zhang Y Z ， Zhang Y T ， Zhang X T ， Zhao T J and Zhao X . 2020 . Review of China's land surface quantitative remote sensing development in 2019 . Journal of Remote Sensing（Chinese）， 24 ( 6 )： 618 - 671

梁顺林 , 白瑞 , 陈晓娜 , 程洁 , 范闻捷 , 何涛 , 贾坤 , 江波 , 蒋玲梅 , 焦子锑 , 刘元波 , 倪文俭 , 邱凤 , 宋柳霖 , 孙林 , 唐伯惠 , 闻建光 , 吴桂平 , 谢东辉 , 姚云军 , 袁文平 , 张永光 , 张玉珍 , 张云腾 , 张晓通 , 赵天杰 , 赵祥 . 2020 . 2019年中国陆表定量遥感发展综述 . 遥感学报 , 24 ( 6 ): 618- 671 [ DOI: 10.11834/jrs.20209476 http://dx.doi.org/10.11834/jrs.20209476 ]

Lin M S and Zhang Y G . 2018 . Application status and developmentprospects of marine dynamics environmental satellites in China . Satellite Application , ( 5 ): 19 - 23

林明森 , 张有广 . 2018 . 中国海洋动力环境卫星应用现状及发展展望.卫星应用, (5): 19 - 23

Lu N M ， Ding L ， Zheng X B ， Ye X ， Li C R ， Lyu D R ， Zhang P ， Hu X Q ， Zhou C H ， You Z ， Fang J C ， Gong J Y ， Jiang X W ， Li J J ， Ma L L and Xu N . 2020 . Introduction of the radiometric benchmark satellite being developed inChina for remote sensing . Journal of Remote Sensing（Chinese）， 24 （ 6 ）： 672 - 680

卢乃锰 , 丁雷 , 郑小兵 , 叶新 , 李传荣 , 吕达仁 , 张鹏 , 胡秀清 , 周成虎 , 尤政 , 房建成 , 龚建雅 , 蒋兴伟 , 李建军 , 马灵玲 , 徐娜 . 2020 . 中国空间辐射测量基准技术 . 遥感学报， 24 （ 6 ）： 672- 680 ［ DOI： 10.11834/jrs.20200011 http://dx.doi.org/10.11834/jrs.20200011 ］

Pan D L , He X Q , Li S J and Gong F . 2004 . Study on application potentialityof the first China’s ocean satellite HY-1A. Acta Oceanologica sinica, (02): 37 - 44

潘德炉 , 何贤强 , 李淑菁 , 龚芳 . 2004 . 中国第一颗海洋卫星HY-1A的应用潜力研究.海洋学报, (02): 37 - 44

Ran Y H and Li X . 2019 . TanSat: a new star in global carbon monitoringfrom China . Science Bulletin , 64 ( 5 ): 284 - 285 [ DOI: 10.1016/j.scib.2019.01.019 http://dx.doi.org/10.1016/j.scib.2019.01.019 ]

Tang X M and Hu F . 2018 . Development status and trend of satellitemapping . Spacecraft Recovery and Remote Sensing , 39 ( 4 ): 26 - 35

唐新明 , 胡芬 . 2018 . 卫星测绘发展现状与趋势 . 航天返回与遥感 , 39 ( 4 ): 26- 35 [ DOI: 10.3969/j.issn.1009-8518.2018.04.004 http://dx.doi.org/10.3969/j.issn.1009-8518.2018.04.004 ]

Tong Q X . 2005 . Thoughts onthe development strategy of space earth observation systemin China. China Surveying and Mapping, 4):46-49 (童庆禧 . 关于中国空间对地观测系统发展战略的若干思考.中国测绘 , 2005 ( 4 ): 46- 49 ）

Tong Q X and Wei Z . 2017 . Beijing-1 Micro-satellite and its dataapplication . Spacecraft engineering , 16 ( 2 ): 1 - 5 .

童庆禧 , 卫征 . 2007 . 北京一号小卫星及数据应用．航天器工程， 16 ( 2 ): 1 - 5

Tong X D . 2016 . Development of China high-resolution earth observationsystem . Journal of Remote Sensing , 20 ( 5 ): 775 - 780

童旭东 . 2016 . 中国高分辨率对地观测系统重大专项建设进展 . 遥感学报 , 20 ( 5 ): 775- 780 [ DOI: 10.11834/jrs.20166302 http://dx.doi.org/10.11834/jrs.20166302 ]

Wang Q A and Shi J C . 2019 . Report of global ecosystems and environment observation analysis research cooperation in 2018 --- Regional Ecosystem Trends along the Belt and Road. Beijing : Surveying and Mapping Press

王琦安 , 施建成 . 2019 . 全球生态环境遥感监测2018年度报告----一带一路生态环境状况及态势 . 北京 : 测绘出版社

Wang Q and Liu S H . 2016 . Research and implementation of nationalenvironmental remote sensing monitoring system . Journal of RemoteSensing , 20 ( 5 ): 1161 - 1169

王桥 , 刘思含 . 2016 . 国家环境遥感监测体系研究与实现 . 遥感学报 , 20 ( 5 ): 1161- 1169 [ DOI: 10.11834/jrs.20166201 http://dx.doi.org/10.11834/jrs.20166201 ]

Wang S , Jin R and Zhu J D . 2018 . Super View-1 -China’s first commercialremote sensing satellite constellation with a high resolution of 0 . 5 m Aerospace China, (1): 31 - 38

Wen Q , Yan M , Yang B X , Wang Z Y , Wu F , He S S and Tong Q X . 2013 . On-orbit imaging quality assessment of SJ-9A satellite highperformance optical small camera . Spacecraft Recovery and RemoteSensing , 34 ( 4 ): 1 - 9

文强 , 严明 , 杨秉新 , 王智勇 , 伍菲 , 贺少帅 , 童庆禧 . 2013 .“ 实践九号”A卫星高性能光学小相机在轨成像质量评价 . 航天返回与遥感 , 34 ( 4 ): 1- 9 [ DOI: 10.3969/j.issn.1009-8518.2013.04.001 http://dx.doi.org/10.3969/j.issn.1009-8518.2013.04.001 ]

Wielicki B A , Young D F , Mlynczak M G , Thome K J , Leroy S , Corliss J , Anderson J G , Ao C O , Bantges R , Best F , Bowman K , Brindley H , Butler J J , Collins W , Dykema J A , Doelling D R , Feldman D R , Fox N , Huang X , Holz R , Huang Y , Jin Z , Jennings D , Johnson D G , Jucks K , Kato S , Kirk-Davidoff D B , Knuteson R , Kopp G , Kratz D P , Liu X , Lukashin C , Mannucci A J , Phojanamongkolkij N , Pilewskie P , Ramaswamy V , Revercomb H , Rice J , Roberts Y , Roithmayr C M , Rose F , Sandford S , Shirley E L , Smith W L , Soden B , Speth P W , Sun W , Taylor P C , Tobin D and Xiong X . 2013 . Achieving climate change absolute accuracy in orbit . Bulletin of the American Meteorological Society , 94 ( 10 ): 1519 - 1539 [ DOI: 10.1175/BAMS-D-12-00149.1 http://dx.doi.org/10.1175/BAMS-D-12-00149.1 ]

Xiao A R , Wang Z Y , Wang L and Ren Y X . 2018 . Super-resolution for“Jilin-1”satellite video imagery via a convolutional network . Sensors , 18 ( 4 ): 1194 [ DOI: 10.3390/s18041194 http://dx.doi.org/10.3390/s18041194 ]

Xu G H , Liu Q H , Chen L F and Liu L Y . 2016 . Remote sensing forChina’s sustainable development : opportunities and challenges.Journal of Remote Sensing , 20 ( 5 ): 679 - 688

徐冠华 , 柳钦火 , 陈良富 , 刘良云 . 2016 . 遥感与中国可持续发展:机遇和挑战 . 遥感学报 , 20 ( 5 ): 679- 688 [ DOI: 10.11834/jrs.20166308 http://dx.doi.org/10.11834/jrs.20166308 ]

Xu J M , Yang J , Zhang Z Q and Sun A L . 2010 . Chinese meteorologicalsatellitas, achievements and applications . MeteorologicalMonthly , 36 ( 7 ): 94 - 100

许健民 , 杨军 , 张志清 , 孙安来 . 2010 . 中国气象卫星的发展与应用 . 气象 , 36 ( 7 ): 94 - 100

Xu W , Gong J Y and Wang M . 2014 . Development, application, andprospects for Chinese land observation satellites . Geo-spatial InformationScience , 17 ( 2 ): 102 - 109 [ DOI: 10.1080/10095020.2014.917454 http://dx.doi.org/10.1080/10095020.2014.917454 ]

Yan L , Liao X H , Zhou C H , Fan B K , Gong J Y , Cui P , Zheng Y Q , Tan X . 2019 . The impact of UAV remote sensing technology on the industrial development of China: A review [J]. Journal of Geo-informationScience , 21 ( 4 ): 476 - 495 .

晏磊 , 廖小罕 , 周成虎 , 樊邦奎 , 龚健雅 , 崔鹏 , 郑玉权 , 谭翔 . 中国无人机遥感技术突破与产业发展综述 . 地球信息科学学报 , 2019 , 21 ( 4 ): 476 - 495 [ DOI: 10.12082/dqxxkx.2019.180589 http://dx.doi.org/10.12082/dqxxkx.2019.180589 ]

Yang J , Xian D and Tang S H . 2018 . The lateset progress and applicationof Fengyun series meteorological satellite . Satellite Application ,( 11 ): 8 - 14

杨军 , 咸迪 , 唐世浩 . 2018 . 风云系列气象卫星最新进展及应用.卫星应用, (11): 8 - 14

Zhao W B . 2019 . Phase research and practice of upgrading earth observation from test application to systemeffectiveness in China . Journal of Remote Sensing , 23 ( 6 ): 1036 – 1045

赵文波 . 2019 . “ 中国高分”科技重大专项在对地观测发展历程中的阶段研究 . 遥感学报 , 23 ( 6 ): 1036- 1045 [ DOI: 10.11834/jrs.20199162 http://dx.doi.org/10.11834/jrs.20199162 ]

Zhang B . 2018 . Remotely Sensed Big Data Era and Intelligent Information Extraction . Geomatics and Information Science of Wuhan University , 43 ( 12 ): 1861 - 1871

张兵 . 2018 . 遥感大数据时代与智能信息提取 . 武汉大学学报(信息科学版) , 43 ( 12 ): 1861- 1871 [ DOI: 10.13203/j.whugis20180172 http://dx.doi.org/10.13203/j.whugis20180172 ]

Zhang B , Chen Z C , Peng D L , Benediktsson J A , Liu B , Zou L , Li J , Plaza A . 2019 , Remotely Sensed Big Data : Evolution in Model Development for Information Extraction , Proceedings of The IEEE , 107 ( 12 ): 2294 - 2301 .[ DOI: 10.1109/JPROC.2019.2948454 http://dx.doi.org/10.1109/JPROC.2019.2948454 ]

Zheng G G . 2007 . Director of National Meteorological BureauZheng Guoguang was re-elected as co-chairman of GEO . Satellite and network , ( 12 ): 14

郑国光 . 2007 . 国家气象局长郑国光连任GEO联合主席.卫星与网络,(12): 14

Zhou C H , Ou Y and Li Z Y . 2008 . Integration and sharing of remote sensing data in China . Engineering Sciences , 10 ( 6 ): 51 - 55

周成虎 , 欧阳 , 李增元 . 2008 . 中国遥感数据的集成与共享研究 . 中国工程科学 , 10 ( 6 ): 51 - 55

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