正版新书]中欧遥感科技合作“龙计划”文集王琦安李增元等978751

回顾总结篇
从青涩到成熟，“龙计划”合作硕果累累 ·······································王琦安  3
“龙计划”对中国遥感的贡献与体会 ·············································李德仁  6
中欧合作“龙计划”执行过程与合作经验 ·····································李增元  9
专家篇
李德仁 ······························································································17
李增元 ······························································································19
Yves-Louis Desnos ·············································································21
Fabio Rocca ·······················································································22
高志海 ······························································································24
苏中波（Bob Su） ···············································································26
青年才俊篇
王  腾 ······························································································31
庞  勇 ······························································································32
孙建宝 ······························································································34
李晓明 ······························································································35
曹  彪 ·····························································································36
张  晰 ······························································································37
李永生 ······························································································38
杨东旭 ······························································································39
王  婧 ······························································································40
仲  雷 ······························································································41
崔廷伟 ······························································································42
蒋  弥 ······························································································43
马伟强 ······························································································44
赵  卿 ······························································································45
刘  诚 ······························································································46
田  昕 ······························································································48
黄春林 ······························································································49
郑东海 ······························································································50
成果篇
固体地球领域 ·····················································································53
固体地球——地形测量 ····································································53
基于空间观测技术的地震及地质灾害监测与评估技术研究和应用 ·············59
利用 多源数据联合分析沿海三角洲地区由于地面沉降、海平面上升及自然灾害等综合因素造成的影响 ··············································66
全球变化监测的当前及未来大地测量卫星任务 ·····································70
大气领域 ···························································································77
温室气体和碳排放的空间监测方法研究 ··············································77
第三极环境地区水资源变化预测研究 ·················································81
中国空气质量的监测研究 ································································88
农业领域 ···························································································97
利用中欧卫星数据开展农作物分类研究 ··············································97
中欧地球观测数据的综合开发支持农业资源的监测与管理 ·····················102
城市领域 ·························································································108
面向可持续发展的城市遥感 ····························································108
海洋和海岸带领域 ·············································································114
北极海冰卫星遥感研究 ··································································114
河口海岸浑浊水体水环境遥感研究 ···················································120
卫星高度据的验分析与海洋应用 ·············································128
海洋与海岸带环境安全与可持续发展的空间观测研究 ···························133
综合多源遥感的海冰多要素探测 ······················································138
冰冻圈和水文领域 ·············································································143
包含冰川积累和消融的高海拔水文过程的观测和建模 ···························143
基于陆表水循环关键参量开展水文模拟应用和流域监测研究 ··················148
利用 多源遥感协同反演全天候地表温度与异质下垫面地表温度的尺度转换 ··············································································152
中国 干旱地区典型内陆河流域关键生态—水文参数的反演与陆面同化系统研究 ·······························································156
基于遥感数据闭合流域尺度水循环 ···················································164
基于多源水文数据产品的高亚洲流域及区域水安全监测 ························171
基于微波遥感的红河流域水资源监测 ················································178
生态系统领域 ···················································································184
极化干涉与层析SAR植被监测 ·························································184
荒漠化信息高精度遥感提取技术和大区域土地退化遥感监测与评价 ·········189
基于地球观测数据挖掘对中国媒介传播疾病进行监测和预警 ··················194
定标与验领域 ················································································198
面向定量遥感的载荷定标与数据质量控制 ··········································198
土壤水分和雪水GNSS遥感数据的标定与验 ·····································206
感想趣事篇结缘“龙计划”，不负韶华 ····················································廖明生  215
“龙计划”诞生前的一些回忆 ···················································李纪人  219
开放共享平台，提供广阔的合作空间 ········································庞  勇  221
“龙计划”使我成长 ·······························································李晓明  2
对“龙计划”合作计划的若干认识 ···········································杜培军  225
我与“龙计划”的不解之缘 ····················································孙  斌  227
“龙计划”使我各方面能力得到提升 ··········································阿里木  0
“龙计划”对我的改变，不只在学术领域 ····································尹  嫱  2
开放的“龙计划”塑造了开放的我 ···········································王  腾  4
The Beautiful Story between Dragon and Me ·························Timo Balz  
在“龙计划”合作中成长、开拓与发展 ·····································谭  琨  243
大道至简 ············································································曹  彪  245
“龙计划”的青年人才培养 ······················································夏俊士  248
“龙计划”合作项目促进学生快速成长 ·······································刘  培  250
培养青年学者的国际平台——参加“龙计划”项目十五载有感 ·······赵  卿  253
“龙计划”与我同行 ·······························································马耀明  256
“龙计划”之歌——《相聚》 ···················································唐丹玲  258
中欧遥感科技合作“龙计划”大事记 ·····················································263

遥感中心是科学技术部的直属事业单位。中心以提高空天领域自主创新为重点，以开展国际合作为特色，坚持“一体两翼”“小核心、大网络”工作总体布局，凝聚全国空天领域科技力量，以高度的政治责任感和历史使命感全面落实科技部组的决策部署，全力推进空天领域科技创新工作

“龙计划”在中欧双方的共同期望和科学界的热切企盼下应运而生。为梳理和回顾“龙计划”合作历程，总结宣传“龙计划”成果和文化。2019年由遥感中心牵头，面向国内参与“龙计划”合作的相关部门、单位、团队和专家，广泛征集素材，汇编成了这本《中欧遥感科技合作“龙计划”文集》。

遥感技术作为信息基础设施在空间领域延伸的重要支撑技术，是当今世界正

在蓬勃发展的战略高技术之一，广泛应用于气候变化、资源监测、粮食安全、能

源安全、环境保护、防灾减灾等诸多领域，为探索未知世界、发现自然规律、保

障安全、促进经济社会高质量发展提供了物质技术基础。

国际流作是科学技术发展的重要推动力，在全球化趋势推动下，加强遥

感领域的国际合作与交流也至关重要。 搭建遥感领域合作交流的平台、开展深入

的合作研究与学术交流、促进遥感领域数据共享，对于拓展遥感技术应用有

重要意义。同时，充分了解、借鉴和推广在相关领域利用遥感技术应用的经验，

对各国充分挖掘遥感领域科技设施的应用效能也意义非凡。

欧盟和中国都是世界重要的经济体，中国科技部和欧洲空间局是老朋友、好

伙伴。自1994年卫星地面站开始正式接受欧洲资源卫星（ERS）数据

开始，双方的合作机制在不断完善，合作范围也在不断扩展。2004年，为建立对

地观测数据应用研究的联合研究队伍，促进双方卫星遥感应用技术水平的提高，

在中欧双方共同推动下，中欧合作“龙计划”发轫，将中欧在遥感领域的合作推

向了新阶段。目前，“龙计划”已顺利完成前四期合作，第五期合作正在如火如

荼地进行中。自“龙计划”实施18年来，中欧双方在生态系统、防灾减灾、大气

气候、海洋/海岸带等80多个细分研究领域开展了广泛合作，近800名中欧科学

家参与其中，千余名青年后备人才以不同的方式接受了专题培训。在符合各自数

据管理政策的前提下，双方遥感领域卫星数据的开放共享水平显著提升，取得了

一大批具有国际水平的创新研究成果，培养了一大批遥感领域的科研新锐，

将“搭建平台、科学家自主参与、共享地球观测数据”的高效合作机制打造

成为中欧双边成功、活力的典范之一。