Satellite remote sensing technologies
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作者李劲东
出版社北京理工大学出版社有限责任公司
ISBN9787568290647
出版时间2017-11
装帧平装
开本16开
定价158元
货号10806954
上书时间2024-09-04
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作者简介
Prof.Dr.Jindong Li,doctoral supervisor and expert in the field of aerospace remote sensmg,currently works in Beijing Institute of Spacecraft System Engineering in China Academy of Space Technology as a chief designer in a certain area.Professor Li mainly engaged in the overall design of remote sensing satellites and research on spacecraft thermal control technology,and has successively served as the chief designer of several remote sensing satellites,a project expert in Major Basic Research on National Security,the chief scientist for National Defense 973 Program,and a member of Russian Academy of Cosmonautic□ □y K.E.Tsiolkovsky.He has won 3 second prizes of the National Science and Technology Progress Award,4 first prizes,□ □econd prize,and □ third prizes of the National Defense Science and Technology Award,and has published more than 80 academic papers in domestic and foreign journals and
important academic conferences.
目录
1 Fundamentals of Satellite Remote Sensing Technology
1.1 Introduction
1.2 Physical Basis of Satellite Remote Sensing
1.2.1 Electromagnetic Wave and Electromagnetic Spectrum
1.2.2 Solar Radiation Characteristics
1.2.3 Interaction Between Solar Radiation and Atmosphere
1.2.4 Interaction Between Electromagnetic Radiation and Target
1.3 Terrestrial Environment
1.3.1 Analysis of Satellite On-Orbit Environment and Effect
1.3.2 Charged Particle Radiation Environment
1.3.3 Vacuum
1.3.4 Neutral Atmosphere
1.3.5 Solar Electromagnetic Radiation
1.3.6 Solar Disturbance
1.3.7 Total Dose Effect of Space Radiation
1.3.8 Spatial Displacement Effect
1.3.9 Spatial Single Event Effect
1.4 Introduction to Satellite Remote Sensing Engineering System
Reference
2 Space Orbit Design of Remote Sensing Satellite
2.1 Overview
2.1.1 Classification by Orbit Altitude
2.1.2 Classification by Orbital Characteristics
2.2 Design Requirements and Characteristics of Remote Sensing Satellite Orbits
2.2.1 Orbit Design Analysis of Optical Remote Sensing Satellite
2.2.2 Orbit Design Analysis of Microwave Remote Sensing Satellite
2.3 Analysis and Design of Multi-mission Orbits for Optical Remote Sensing Satellite
2.3.1 Orbit Selection Principle
2.3.2 Satellite Multi-mission Orbit Design
2.3.3 Design of Satellite Multi-mission Orbit Parameters
2.3.4 Orbit Control
2.3.5 Orbit Control Fuel Consumption
2.3.6 Mission Application Strategy
2.3.7 Design of Initial Orbit Offset
2.3.8 Drift Characteristics of LTDN
2.3.9 Design of Resolution and Revisit Ability
2.4 Orbital Analysis and Design of Microwave Imaging Remote Sensing Satellite
2.4.1 Orbit Selection Principle
2.4.2 Orbital Parameter Determination
2.4.3 Mission Orbit Parameter
2.4.4 Initial Orbit Offset Design
2.4.5 Orbit Control
2.4.6 Observational Capability Analysis
2.4.7 LTDN Drift
3 Analysis and Design of High-Resolution Visible Spectral Remote Sensing Satellite System
3.1 Overview
3.1.1 Development Overview
3.1.2 Trend of Development
3.2 Demand Analysis and Technical Characteristics
3.2.1 Demand Analysis
3.2.2 Technical Characteristics of Visible Spectral Remote Sensing Satellite
3.3 Key Performance Indicators of Imaging Quality of Visible Spectral Remote Sensing System
3.3.1 Radiation Imaging Quality
3.3.2 Geometric Imaging Quality
3.4 Analysis and Design of Imaging Quality of High-Resolution Visible Spectral Camera
3.4.1 Overview of the Development of High-Resolution Visible Spectral Cameras
3.4.2 Key Design Elements of Visible Spectral Camera
3.4.3 Design of GSD and Camera Focal Length
……
4 Design and Analysis of Infrared Remote Sensing Statellite System
5 Design and Analysis of Hyperspectral Remote Sensing Statellite System
6 Design and Analysis of High-Precision Stereo Surveying and Mapping Satellite System
7 Design and Analysis of High-Resolution SAR Remote Sensing Satellite System
8 Design and Analysis of High-Precision Microwave Remote Sensing Satellite System
9 Design and Analysis of Optical Remote Sensing Satellite System on Geostationary Orbit
10 Development Prospect
内容摘要
本书是北京理工大学出版社与SpringerNature联合出版图书。
卫星遥感技术作为一门综合性的科学技术应用于政治、经济、军事和社会等众多领域,具有视域广、数据采集快、可重复并连续观测等特点,在国土资源的监测和开发、交通设施监测、灾区重建、农林业资源调查等方面具有不可替代的作用。
本书主要阐述了各类遥感卫星系统的设计、遥感卫星任务分析、技术特点,内容涉及高分辨率合成孔径雷达遥感卫星系统设计、遥感卫星系统构建与总体构型布局设计、高速图像数据处理与传输系统设计、遥感卫星微振动抑制与在轨检测技术、遥感卫星总装集成与验证技术等20章。本书原创性强、创新性突出,反映了作者及其团队在卫星遥感领域科学研究和工程实践取得的新方法、新技术与新成果,主要为从事遥感卫星总体设计、卫星数据采集与分析及有关专业的科技人员和政府决策人员提供智力支持。
精彩内容
《卫星遥感技术》是北京理工大学出版社与Springer Nature联合出版图书。卫星遥感技术作为一门综合性的科学技术应用于政治、经济、军事和社会等众多领域,具有视域广、数据采集快、可重复并连续观测等特点,在国土资源的监测和开发、交通设施监测、灾区重建、农林业资源调查等方面具有不可替代的作用。该书主要阐述了各类遥感卫星系统的设计、遥感卫星任务分析、技术特点,内容涉及高分辨率合成孔径雷达遥感卫星系统设计、遥感卫星系统构建与总体构型布局设计、高速图像数据处理与传输系统设计、遥感卫星微振动抑制与在轨检测技术、遥感卫星总装集成与验证技术等10章。该书原创性强、创新性突出,反映了作者及其团队在卫星遥感领域科学研究和工程实践取得的新方法、新技术与新成果,主要为从事遥感卫星总体设计、卫星数据采集与分析及有关专业的科技人员和政府决策人员提供智力支持。
媒体评论
Based on the overall design of the spaceborne remote sensing system,thi□ □ook concisely summarizes China's experience in the spaceborne remote sensing system technology and its engineering application.
Since the launch of a major science and technology project on high-resolution Earth observation system,China has made remarkable achievements in satellite remote sensing technology and major breakthroughs in the overall design and high-precision control of visible,infrared,hyperspectral,and microwave remote sensing satellites and in the processing and transmission of high-speed image data.China has launched the high-resolution remote sensing satellites such as Gaofen-l,Gaofen-□,Gaofen-3,Gaofen-4,Gaofen-8,and Gaofen-9 in succession. These satellites have played an important role in the monitoring ofland and resources,the exploitation of mineral resources,the fine management of cities,the monitoring of traffic facilities,the survey of agricultural and forestry resources,and the recovery and reconstruction of disaster-hit areas,while enabling China's satellite remote sensing technology to achieve leapfrog development. Based on the overall design and flight verification of the above satellites,thi□ □ook summarizes the state of the art of satellite remote sensing technology.
The focus of thi□ □ook is the mission analysis and overall design of remote sensing satellite system. Through the mission analysis and design,the mission objectives and requirements (mission and tasks,functions and performance,etc.)proposed by the users are transformed into the overall design requirements and constraints on remote sensing satellite system,such as those on satellite orbit,load configuration and system composition. Meanwhile,the selection of carrier rocket and launch site is also discussed. Finally,the development trend of spaceborne remote sensing system in the future is presented by combing the future development trend of spaceborne remote sensing technology.
Thi□ □ook consists of 10 chapters. In Chap. 1,the basic knowledge on the general composition of satellite remote sensing system engineering,the physical basis of satellite remote sensing,the near-Earth space environment and its effects are introduced. In Chap. □,the mission characteristics of remote sensing satellite and its orbit design method are addressed. In Chap. 3,the overall design methods of visible panchromatic/multispectral remote sensing satellite systems are presented.In Chaps. 4 and 5,the overall design methods of infrared/hyperspectral remote sensing satellite systems are described,respectively. In Chap. 6,the overall design method of high-precision survey satellite system is given. In Chap. 7,the overall design method of synthetic aperture radar (SAR) remote sensing satellite system is elaborated on. In Chap. 8,the overall design method of microwave remote sensing satellite system is discussed. In Chap. 9,the overall design method of geosyn-chronous optical remote sensing satellite system is introduced. In Chap. 10,the future development trend of satellite remote sensing technology is given.
Thi□ □ook is mainly edited by Jindong Li and compiled and proofread by Jindong Li,Ting Li,Xiang Li,and Hezhi Sun. Chapter 1 was written by Chen Ni,Zhiping Zhang,and Jindong Li; Chap. □ by Meili Huang,Qiao Zhao,and Hao Feng; Chap. 3 by Ting Li,Zhen Li,and Jindong Li; Chap. 4 by Chen Ni and Jindong Li; Chap. 5 by Zhen Li,Lei Yao,and Jindong Li; Chap. 6 by Xinwei Zhang; Chap. 7 by Zheng Lv; Chap. 8 by Mingming Xu; Chap. 9 by Xianghao Kong; and Chap. 10 by Dong Yang.
The compilation of thi□ □ook took more than □ years and received careful guidance and great support from the experts such as Academician of Chinese Academy of Engineering Peijian Ye,President of the China Academy of Space Technology (CAST) Hongtai Zhang,and Director of the Science and Technology Commission of the CAST General Division Yongfu Wang. Thi□ □ook was also checked by Shiping Chen,Jijun Chang,Xiulai Hao,Shijun Ma,Wei Cai,Guojing Han,Guo Li,Zhenbo Cai,Tao Jin,Hong Jia,Yan Li,Jing Cao,Haitao Tang,Lei Yu et al,who put forward a lot of valuable suggestions during examination. The engineers from CAST General Division Xiaoheng Liang and Xiujuan Liang,together with the Springer editors,have done a lot of work on the publication of thi□□ook. Here,the authors would like to express sincere thanks to them.
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