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  Jupiter's 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