A Space Hitchhiker's Guide to Satellite Systems Engineering
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Description
Book Introduction
Daedeok Innopolis, where the lights are always on 365 days a year, is developing into a center of science in Korea that is attracting global attention.
Since 2000, the author has been working at the Korea Aerospace Research Institute (KARI) on a journey toward the era of fully independent satellite operation in Korea, based on collaboration with advanced international space organizations and the development of domestic technology.
Although the new space era is rapidly approaching, the field of space system development is still bound to remain conservative in many aspects for various reasons.
Because of this conservatism, the barriers to entry are very high.
This textbook is designed to serve as a stepping stone to help you overcome these high barriers more quickly and without exhausting yourself. It is structured in an easy, concise, and fun way.
I think it will be of great help to new researchers and developers who are trying to enter the field of space system development.
If I may offer a word of encouragement to emerging researchers and developers, I hope that through this book, they will not simply acquire the content of this textbook as mere knowledge, but internalize, actualize, and develop it. Rather than simply following a system, they will design a new system that can lead the new space era, and through this, they will have the opportunity to lead it as designed.
- Dr. Jeong Il-gu, Electronics and Telecommunications Research Institute (ETRI)
Since 2000, the author has been working at the Korea Aerospace Research Institute (KARI) on a journey toward the era of fully independent satellite operation in Korea, based on collaboration with advanced international space organizations and the development of domestic technology.
Although the new space era is rapidly approaching, the field of space system development is still bound to remain conservative in many aspects for various reasons.
Because of this conservatism, the barriers to entry are very high.
This textbook is designed to serve as a stepping stone to help you overcome these high barriers more quickly and without exhausting yourself. It is structured in an easy, concise, and fun way.
I think it will be of great help to new researchers and developers who are trying to enter the field of space system development.
If I may offer a word of encouragement to emerging researchers and developers, I hope that through this book, they will not simply acquire the content of this textbook as mere knowledge, but internalize, actualize, and develop it. Rather than simply following a system, they will design a new system that can lead the new space era, and through this, they will have the opportunity to lead it as designed.
- Dr. Jeong Il-gu, Electronics and Telecommunications Research Institute (ETRI)
- You can preview some of the book's contents.
Preview
index
Chapter 1 Space Systems
1.1 Space System Architecture
1.2 Launch and Initial Operations
1.3 Optical and radar satellites
Summary of Key Points
Chapter 2 Satellite Systems
2.1 Space System Level
2.2 Satellite System Architecture
2.3 Satellite environmental conditions
2.3.1 Launch environment
2.3.2 Orbital environment
2.3.3 Environmental Testing
Summary of Key Points
Chapter 3 Satellite Orbits
3.1 Coordinate system
3.1.1 ECI coordinate system
3.1.2 ECEF coordinate system
3.1.3 LVLH coordinate system
3.1.4 Satellite Coordinate System
3.2 Orbit classification
3.3 Orbital elements
3.4 Sun-synchronous orbit
Summary of Key Points
Chapter 4 System Operation
4.1 Operation Mode
4.2 Attitude determination and attitude control
4.2.1 Attitude determination sensor
4.2.2 Attitude control actuator
4.3 Precision Performance Index
4.3.1 Orientation precision
4.3.2 Spatial positioning accuracy
4.3.3 Capture range accuracy
4.4 Mission Control and Image Reception Processing
Summary of Key Points
Chapter 5 Systems Engineering
5.1 Getting Started with Systems Engineering
5.2 The Need for Systems Engineering
5.3 System phase change process
5.3.1 Requirements
5.3.2 Design criteria
5.3.3 Products
5.4 Project Life Cycle
5.5 Systems Engineering Organization
5.5.1 Systems Engineering Team Work
5.5.2 Systems Engineer Role
5.5.3 NASA Project Execution Organization Chart
5.5.4 Project Management
5.6 Systems Engineering Flow
5.6.1 Flow Steps
5.6.2 Flow Example
5.6.3 Incorrect flow order
5.7 Vee model
Summary of Key Points
Chapter 6 Systems Engineering Terminology
6.1 Basic Terminology
6.2 Verification and Validation
6.3 Hazards and Risks
6.4 Faults and Failures
6.5 IPT and WG
6.6 PBS and WBS
Summary of Key Points
Chapter 7 System Design
7.1 NR-ND Principle
7.2 System Design Process
7.3 Requirements Analysis
7.2.1 Requirement Types
7.2.2 Requirements Decomposition
7.4 Requirements Analysis Example
7.4.1 Apollo Program
7.4.2 Spatial positioning accuracy
7.5 Specification Tree
Summary of Key Points
Chapter 8 System Verification
8.1 NT-NO Principle
8.2 Product Realization Process
8.3 Verification Activities
8.3.1 Verification Goals
8.3.2 Verification Principles
8.3.3 Verification Procedure
8.4 Verification Tools
8.4.1 Requirement Verification Table
8.4.2 Requirements Traceability Table
8.4.3 Hardware Verification Test Table
8.5 Certification Test and Acceptance Test
8.6 Verification Document
Summary of Key Points
Appendix AA Project Milestones
A1. SRR (System Requirements Review)
A2. SDR (System Design Review)
A3. PDR (Preliminary Design Review)
A4. CDR (Detailed Design Review)
A5. IRR (Integrated Readiness Review)
A6. PSR (Pre-Shipment Review)
Appendix B Glossary of Acronyms
· References
· Search 124
1.1 Space System Architecture
1.2 Launch and Initial Operations
1.3 Optical and radar satellites
Summary of Key Points
Chapter 2 Satellite Systems
2.1 Space System Level
2.2 Satellite System Architecture
2.3 Satellite environmental conditions
2.3.1 Launch environment
2.3.2 Orbital environment
2.3.3 Environmental Testing
Summary of Key Points
Chapter 3 Satellite Orbits
3.1 Coordinate system
3.1.1 ECI coordinate system
3.1.2 ECEF coordinate system
3.1.3 LVLH coordinate system
3.1.4 Satellite Coordinate System
3.2 Orbit classification
3.3 Orbital elements
3.4 Sun-synchronous orbit
Summary of Key Points
Chapter 4 System Operation
4.1 Operation Mode
4.2 Attitude determination and attitude control
4.2.1 Attitude determination sensor
4.2.2 Attitude control actuator
4.3 Precision Performance Index
4.3.1 Orientation precision
4.3.2 Spatial positioning accuracy
4.3.3 Capture range accuracy
4.4 Mission Control and Image Reception Processing
Summary of Key Points
Chapter 5 Systems Engineering
5.1 Getting Started with Systems Engineering
5.2 The Need for Systems Engineering
5.3 System phase change process
5.3.1 Requirements
5.3.2 Design criteria
5.3.3 Products
5.4 Project Life Cycle
5.5 Systems Engineering Organization
5.5.1 Systems Engineering Team Work
5.5.2 Systems Engineer Role
5.5.3 NASA Project Execution Organization Chart
5.5.4 Project Management
5.6 Systems Engineering Flow
5.6.1 Flow Steps
5.6.2 Flow Example
5.6.3 Incorrect flow order
5.7 Vee model
Summary of Key Points
Chapter 6 Systems Engineering Terminology
6.1 Basic Terminology
6.2 Verification and Validation
6.3 Hazards and Risks
6.4 Faults and Failures
6.5 IPT and WG
6.6 PBS and WBS
Summary of Key Points
Chapter 7 System Design
7.1 NR-ND Principle
7.2 System Design Process
7.3 Requirements Analysis
7.2.1 Requirement Types
7.2.2 Requirements Decomposition
7.4 Requirements Analysis Example
7.4.1 Apollo Program
7.4.2 Spatial positioning accuracy
7.5 Specification Tree
Summary of Key Points
Chapter 8 System Verification
8.1 NT-NO Principle
8.2 Product Realization Process
8.3 Verification Activities
8.3.1 Verification Goals
8.3.2 Verification Principles
8.3.3 Verification Procedure
8.4 Verification Tools
8.4.1 Requirement Verification Table
8.4.2 Requirements Traceability Table
8.4.3 Hardware Verification Test Table
8.5 Certification Test and Acceptance Test
8.6 Verification Document
Summary of Key Points
Appendix AA Project Milestones
A1. SRR (System Requirements Review)
A2. SDR (System Design Review)
A3. PDR (Preliminary Design Review)
A4. CDR (Detailed Design Review)
A5. IRR (Integrated Readiness Review)
A6. PSR (Pre-Shipment Review)
Appendix B Glossary of Acronyms
· References
· Search 124
GOODS SPECIFICS
- Date of issue: November 30, 2024
- Page count, weight, size: 140 pages | 188*257*20mm
- ISBN13: 9791160737226
- ISBN10: 1160737223
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