Technologies for deep space exploration
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作者编者:孙泽洲|责编:张海丽
出版社北京理工大学出版社
ISBN9787568290296
出版时间2019-03
装帧精装
开本16开
定价218元
货号10756076
上书时间2024-12-23
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作者简介
孙泽洲,研究员,博士生导师,航天深空探测领域专家,现任职于中国空间技术研究院总体部,“嫦娥四号”、火星探测器总设计师。主要从事深空探测项目论证、探测器总体设计等方向的研究工作。主持研制“嫦娥三号”,并成功完成我国首次月面软着陆和巡视探测。曾获国家科学技术进步奖特等奖、国防科学技术奖特等奖等多项奖励。发表核心期刊论文20余篇。
目录
1 Introduction
1.1 The Significance of Deep Space Exploration
1.2 Overview of Deep Space Exploration Development
1.2.1 Overview of International Deep Space Exploration Development
1.2.2 Overview of Deep Space Exploration Development in China
1.2.3 Development Trends of Deep Space Exploration
1.3 Future Development Requirements for Deep Space Exploration Technologies
1.4 Prospects
References and Related Reading
2 Characteristics of Deep Space Environment and Corresponding Impact
2.1 Introduction
2.2 Geospace Environment
2.2.1 Main Geospace Environment Characteristics for Deep Space Probes
2.2.2 Impact of Geospace Environment on Deep Space Probes
2.3 Lunar Space Environment
2.3.1 General
2.3.2 Lunar Radiation Environment and Impacts
2.3.3 Lunar Atmosphere and the Impact
2.3.4 Lunar Soil/Lunar Dust and Impacts
2.4 Space Environment of Mars
2.4.1 Overview
2.4.2 Mars Radiation Environment and Its Impact
2.4.3 Impact of Mars Atmospheric Environment
2.4.4 Impact of Mars Dust Environment
2.4.5 Landforms on the Surface of Mars
2.5 Space Environment of Jupiter
2.5.1 Overview
2.5.2 Jupiters Strong Magnetic Field Environment
2.5.3 Strong Radiation Environment of Jupiter
2.5.4 Jupiter Plasma Environment
2.5.5 Jupiter Atmosphere
2.6 Space Environment of Venus
2.6.1 Overview
2.6.2 Magnetic Field of Venus
2.6.3 Venus Atmosphere
2.6.4 Venus Surface Topography
2.7 Other Interplanetary Space Environments
2.7.1 Interplanetary Environment
2.7.2 Asteroid Environment
2.7.3 Comet Environment
2.8 Outlook
References and Related Reading
3 System Design Technology
3.1 Introduction
3.2 Overview of the System Design of Deep Space Probes
3.2.1 Characteristics of Deep Space Probe Missions
3.2.2 System Mission Analysis
3.2.3 Overall System Design Process
3.3 System Design of Orbiting Exploration Missions
3.3.1 Mission Analysis
3.3.2 Decomposition of Technical Specifications
3.3.3 Flight Procedure Design
3.3.4 Analysis of Key Technologies
3.3.5 Design Validation
3.4 System Design of Landing Exploration Missions
3.4.1 Mission Analysis
3.4.2 Decomposition of Technical Specifications
3.4.3 Flight Procedure Design
3.4.4 Analysis of Key Technologies
3.4.5 Design Validation
3.5 System Design of Rover Exploration Missions
3.5.1 Mission Analysis
3.5.2 Decomposition of Technical Specifications
3.5.3 Work Procedure Design
3.5.4 Analysis of Key Technologies
3.5.5 Design Validation
……
4 Technology of Orbit Design
5 Payload Technology
6 Guidance, Navigation and Control Technology
7 Atmospheric Braking Technology
8 TT&C and Communication Technology
9 Thermal Control Technology
10 Propulsion Technology
11 Power Supply Technology
12 Autonomous Management and Tele-operation Technology
13 Mechanism Technology
14 Ground Test Verification Technology
内容摘要
This book offers readers essential insights into system design for deep space probes and describes key aspects such as system design,orbit design,telecommunication,GNC,thermal control,propulsion,aerobraking and scientific payload.Each chapter includes the basic principles,requirements analysis,procedures,equations and diagrams,as well as practical examples that will help readers to understand the research on each technology and the major concerns when it comes to developing deep space probes.An excellent reference resource for researchers and engineers interested in deep space exploration,it can also serve as a textbook for university students and those at institutes involved in aerospace.
精彩内容
本书是北京理工大学出版社与Springer Nature联合出版图书。深空探测技术是一项多学科交叉、技术高度集成的系统工程。深空探测活动在当今世界高科技领域极具挑战性、创新性和带动性,可推动一系列高新技术的诞生、成长、推广和应用,催生一大批新学科的形成、创新、开拓和发展,对国家的政治、经济、科学及人类社会的可持续发展具有重大意义。本书以深空探测器系统研制所涉及的总体设计、轨道设计、测控通信、导航与控制、热控制、自主管理、大气减速、遥操作、有效载荷等热点、难点技术为主线,结合“嫦娥”系列探月工程和首次火星探测等重大任务的工程实践进行系统阐述和总结。本书可为航天科技工作者、从事国家战略性工程的项目管理人员、政府决策层提供技术参考。
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