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Satellite technology : principles and applications / Anil K. Maini, Varsha Agrawal.

By: Contributor(s): Material type: TextTextPublisher number: EB00626677 | Recorded BooksPublisher: Chichester, West Sussex : Wiley, [2014]Edition: Third editionDescription: 1 online resourceContent type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781118636374
  • 1118636376
  • 9781118636411
  • 1118636414
  • 9781118636459
  • 1118636457
  • 1118636473
  • 9781118636473
Subject(s): Genre/Form: Additional physical formats: Print version:: Satellite technology.DDC classification:
  • 629.46 23
LOC classification:
  • TL796
Online resources:
Contents:
Satellite Technology: Principles and Applications; Contents; Preface; Part I: Satellite Technology; 1 Introduction to Satellites and their Applications; 1.1 Ever-expanding Application Spectrum; 1.2 What is a Satellite?; 1.3 History of the Evolution of Satellites; 1.3.1 Era of Hot Air Balloons and Sounding Rockets; 1.3.2 Launch of Early Artificial Satellites; 1.3.3 Satellites for Communications, Meteorology and Scientific Exploration -- Early Developments; 1.3.4 Non-geosynchronous Communication Satellites: Telstar and Relay Programmes; 1.3.5 Emergence of Geosynchronous Communication Satellites.
1.3.6 International Communication Satellite Systems1.3.7 Domestic Communication Satellite Systems; 1.3.8 Satellites for other Applications also made Rapid Progress; 1.3.9 Small or Miniature Satellites; 1.4 Evolution of Launch Vehicles; 1.5 Future Trends; 1.5.1 Communication Satellites; 1.5.2 Weather Forecasting Satellites; 1.5.3 Earth Observation Satellites; 1.5.4 Navigational Satellites; 1.5.5 Military Satellites; Further Reading; Glossary; 2 Satellite Orbits and Trajectories; 2.1 Definition of an Orbit and a Trajectory; 2.2 Orbiting Satellites -- Basic Principles.
2.2.1 Newton's Law of Gravitation2.2.2 Newton's Second Law of Motion; 2.2.3 Kepler's Laws; 2.3 Orbital Parameters; 2.4 Injection Velocity and Resulting Satellite Trajectories; 2.5 Types of Satellite Orbits; 2.5.1 Orientation of the Orbital Plane; 2.5.2 Eccentricity of the Orbit; 2.5.3 Distance from Earth; 2.5.4 Sun-synchronous Orbit; Further Readings; Glossary; 3 Satellite Launch and In-orbit Operations; 3.1 Acquiring the Desired Orbit; 3.1.1 Parameters Defining the Satellite Orbit; 3.1.2 Modifying the Orbital Parameters; 3.2 Launch Sequence; 3.2.1 Types of Launch Sequence.
3.3 Launch Vehicles3.3.1 Introduction; 3.3.2 Classification; 3.3.3 Anatomy of a Launch Vehicle; 3.3.4 Principal Parameters; 3.3.5 Major Launch Vehicles; 3.4 Space Centres; 3.4.1 Location Considerations; 3.4.2 Constituent Parts of a Space Centre; 3.4.3 Major Space Centres; 3.5 Orbital Perturbations; 3.6 Satellite Stabilization; 3.6.1 Spin Stabilization; 3.6.2 Three-axis or Body Stabilization; 3.6.3 Comparison between Spin-stabilized and Three-axis Stabilized Satellites; 3.6.4 Station Keeping; 3.7 Orbital Effects on Satellite's Performance; 3.7.1 Doppler Shift.
3.7.2 Variation in the Orbital Distance3.7.3 Solar Eclipse; 3.7.4 Sun Transit Outrage; 3.8 Eclipses; 3.9 Look Angles of a Satellite; 3.9.1 Azimuth Angle; 3.9.2 Elevation Angle; 3.9.3 Computing the Slant Range; 3.9.4 Computing the Line-of-Sight Distance between Two Satellites; 3.10 Earth Coverage and Ground Tracks; 3.10.1 Satellite Altitude and the Earth Coverage Area; 3.10.2 Satellite Ground Tracks; 3.10.3 Orbit Inclination and Latitude Coverage; Further Readings; Glossary; 4 Satellite Hardware; 4.1 Satellite Subsystems; 4.2 Mechanical Structure; 4.2.1 Design Considerations.
Summary: Fully updated edition of the comprehensive, single-source reference on satellite technology and its applications Covering both the technology and its applications, Satellite Technology is a concise reference on satellites for commercial, scientific and military purposes. The book explains satellite technology fully, beginning by offering an introduction to the fundamentals, before covering orbits and trajectories, launch and in-orbit operations, hardware, communication techniques, multiple access techniques, and link design fundamentals. This new edition also incl.
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Includes bibliographical references and index.

Print version record and CIP data provided by publisher.

Satellite Technology: Principles and Applications; Contents; Preface; Part I: Satellite Technology; 1 Introduction to Satellites and their Applications; 1.1 Ever-expanding Application Spectrum; 1.2 What is a Satellite?; 1.3 History of the Evolution of Satellites; 1.3.1 Era of Hot Air Balloons and Sounding Rockets; 1.3.2 Launch of Early Artificial Satellites; 1.3.3 Satellites for Communications, Meteorology and Scientific Exploration -- Early Developments; 1.3.4 Non-geosynchronous Communication Satellites: Telstar and Relay Programmes; 1.3.5 Emergence of Geosynchronous Communication Satellites.

1.3.6 International Communication Satellite Systems1.3.7 Domestic Communication Satellite Systems; 1.3.8 Satellites for other Applications also made Rapid Progress; 1.3.9 Small or Miniature Satellites; 1.4 Evolution of Launch Vehicles; 1.5 Future Trends; 1.5.1 Communication Satellites; 1.5.2 Weather Forecasting Satellites; 1.5.3 Earth Observation Satellites; 1.5.4 Navigational Satellites; 1.5.5 Military Satellites; Further Reading; Glossary; 2 Satellite Orbits and Trajectories; 2.1 Definition of an Orbit and a Trajectory; 2.2 Orbiting Satellites -- Basic Principles.

2.2.1 Newton's Law of Gravitation2.2.2 Newton's Second Law of Motion; 2.2.3 Kepler's Laws; 2.3 Orbital Parameters; 2.4 Injection Velocity and Resulting Satellite Trajectories; 2.5 Types of Satellite Orbits; 2.5.1 Orientation of the Orbital Plane; 2.5.2 Eccentricity of the Orbit; 2.5.3 Distance from Earth; 2.5.4 Sun-synchronous Orbit; Further Readings; Glossary; 3 Satellite Launch and In-orbit Operations; 3.1 Acquiring the Desired Orbit; 3.1.1 Parameters Defining the Satellite Orbit; 3.1.2 Modifying the Orbital Parameters; 3.2 Launch Sequence; 3.2.1 Types of Launch Sequence.

3.3 Launch Vehicles3.3.1 Introduction; 3.3.2 Classification; 3.3.3 Anatomy of a Launch Vehicle; 3.3.4 Principal Parameters; 3.3.5 Major Launch Vehicles; 3.4 Space Centres; 3.4.1 Location Considerations; 3.4.2 Constituent Parts of a Space Centre; 3.4.3 Major Space Centres; 3.5 Orbital Perturbations; 3.6 Satellite Stabilization; 3.6.1 Spin Stabilization; 3.6.2 Three-axis or Body Stabilization; 3.6.3 Comparison between Spin-stabilized and Three-axis Stabilized Satellites; 3.6.4 Station Keeping; 3.7 Orbital Effects on Satellite's Performance; 3.7.1 Doppler Shift.

3.7.2 Variation in the Orbital Distance3.7.3 Solar Eclipse; 3.7.4 Sun Transit Outrage; 3.8 Eclipses; 3.9 Look Angles of a Satellite; 3.9.1 Azimuth Angle; 3.9.2 Elevation Angle; 3.9.3 Computing the Slant Range; 3.9.4 Computing the Line-of-Sight Distance between Two Satellites; 3.10 Earth Coverage and Ground Tracks; 3.10.1 Satellite Altitude and the Earth Coverage Area; 3.10.2 Satellite Ground Tracks; 3.10.3 Orbit Inclination and Latitude Coverage; Further Readings; Glossary; 4 Satellite Hardware; 4.1 Satellite Subsystems; 4.2 Mechanical Structure; 4.2.1 Design Considerations.

Fully updated edition of the comprehensive, single-source reference on satellite technology and its applications Covering both the technology and its applications, Satellite Technology is a concise reference on satellites for commercial, scientific and military purposes. The book explains satellite technology fully, beginning by offering an introduction to the fundamentals, before covering orbits and trajectories, launch and in-orbit operations, hardware, communication techniques, multiple access techniques, and link design fundamentals. This new edition also incl.

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