Shkelzen Cakaj

Ground Station Design and Analysis for LEO Satellites (eBook, PDF)

Analytical, Experimental and Simulation Approach

• Format: PDF

Produktbeschreibung

Tutorial for analytical and scientific approaches related to LEO satellites ground station performance, including math, experiments, and simulations. Ground Station Design and Analysis for LEO satellites provides complete instructions and steps for ground station performance evaluation, including stations dedicated for scientific or communication purposes, and offers the reader an enhanced learning experience by proposing 40 ideas related to ground station performance assessment. Each idea goes over the math analysis, experiment or simulation, the methodology applied, the results, and a conclusion. This approach provides the reader with the opportunity to compare theoretical results with on-site results, guiding the reader towards intelligent and practical performance evaluation and enhancement. The text also considers the future emerging developments of LEO satellites and their challenges and applications, including multimedia and other scientific applications. Stemming from the highly qualified author's research work of roughly 20 years, Ground Station Design and Analysis for LEO Satellites includes information on: * Interference aspects, covering intermodulation interference modeling for LEO satellite ground stations and downlink adjacent interference for LEO search and rescue satellites * Sun synchronization, covering nodal regression and Sun synchronization of low Earth orbits through inclination angle. * Horizon plane and communication duration, covering communications duration with LEO satellites under ideal, practical and designed horizon plane for LEO satellite ground stations * Figure of merit and system noise temperature, covering composite and antenna noise temperature, Sun noise experiment and desensibilization measurements at LEO satellite ground stations Ground Station Design and Analysis for LEO Satellites is an innovative and advanced tutorial-based resource that will appeal to satellite engineers (operators/vendors) working on the operation, maintenance, and performance evaluation of ground stations, as well as postgraduate students/early-stage researchers wishing to obtain knowledge on this state-of-the-art technology.

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Produktdetails

• Verlag: John Wiley & Sons
• Seitenzahl: 240
• Erscheinungstermin: 20. Oktober 2022
• Englisch
• ISBN-13: 9781119899266
• Artikelnr.: 66253589

Autorenporträt

Shkelzen Cakaj, Associate Professor, Polytechnic University of Tirana, Tirana, Albania. His master thesis about LEO satellite ground stations stems from his time as a scientific guest at the Institute of Communication and Radiofrequency Engineering, Vienna Technical University, 2003. Dr. Cakaj received his PhD in satellite communications from Zagreb University in January 2008. In 2009, as a Fulbright scholar, he continued his postdoctoral research at NOAA (National Oceanic and Atmospheric Administration) in Maryland, USA. He is the author of 68 papers published in worldwide conferences and journals. He is an IEEE reviewer. His area of interest is satellite ground station performance.

Inhaltsangabe

Preface x

Acknowledgments xiv

1 LEO Satellite Ground Station Design Concepts 1

1.1 An Overview of LEO Satellites 1

1.2 Satellite System Architecture 4

1.3 The Satellite Ground Station 8

1.4 Ground Station Subsystems 11

1.4.1 Antennas 11

1.4.2 Low Noise Amplifier 11

1.4.3 Converters 12

1.4.4 Safety System 13

1.5 Downlink Budget 14

1.5.1 Error-Performance 15

1.5.2 Received Signal Power 15

1.5.3 Link Budget Analyses 18

1.6 Figure of Merit and System Noise Temperature 19

1.7 Satellite and Ground Station Geometry 25

1.8 LEO MOST Satellite and Ground Stations 29

References 31

2 Rain Attenuation 35

2.1 Rain Attenuation Concepts 35

2.2 Rain Attenuation for LEO Satellite Ground Station 38

2.3 Rain Attenuation Modeling for LEO Satellite Ground Station 41

References 44

3 Downlink Performance 47

3.1 Downlink Performance Definition 47

3.2 Composite Noise Temperature at LEO Satellite Ground Station 47

3.3 Antenna Noise Temperature at LEO Satellite Ground Station 49

3.4 Downlink Performance - Figure of Merit 51

3.5 Downlink Performance: Signal-to-Noise Ratio (S/N) 54

3.6 Downlink and Uplink Antenna Separation 58

3.7 Desensibilization by Uplink Signal at LEO Satellite Ground Station 59

3.8 Downlink and Uplink Frequency Isolation 61

3.9 Sun Noise Measurement at LEO Satellite Ground Station 63

References 69

4 Horizon Plane and Communication Duration 71

4.1 LEO Satellite Tracking Principles 71

4.2 Ideal Horizon Plane and Communication Duration with LEO Satellites 78

4.3 The Range and Horizon Plane Simulation for Ground Stations of LEO Satellites 81

4.4 Practical Horizon Plane for LEO Ground Stations 83

4.5 Real Communication Duration and Designed Horizon Plane Determination 87

4.6 Ideal and Designed Horizon Plane Relation in Space 88

4.7 Savings on Transmit Power through Designed Horizon Plane at LEO Satellite Ground Stations 93

4.8 Elevation Impact on Signal-to-Noise Density Ratio for LEO Satellite Ground Stations 96

References 100

5 LEO Coverage 103

5.1 LEO Coverage Concept 103

5.2 LEO Coverage Geometry 104

5.3 The Coverage of LEO Satellites at Low Elevation 105

5.4 Coverage Belt 107

5.5 LEO Global Coverage 109

5.6 Constellation's Coverage - Starlink Case 113

5.7 Handover-Takeover Process: Geometrical Interpretation and Confirmation 115

References 118

6 LEOs Sun Synchronization 121

6.1 Orbital Sun Synchronization Concept 121

6.2 Orbital Nodal Regression 124

6.3 LEO Sun Synchronization and Inclination Window 127

6.4 Perigee Deviation under Inclination Window for Sun-Synchronized LEOs 129

References 132

7 Launching Process 133

7.1 Introduction to the Launching Process 133

7.2 Injection Velocity and Apogee Simulation from Low Earth Orbits 137

7.3 Hohmann Coplanar Transfer from Low Earth Orbits 141

7.4 The GEO Altitude Attainment and Inclination Alignment 145

7.4.1 Circularization and the Altitude Attainment 147

7.4.2 Inclination Alignment 150

References 151

8 LEO Satellites for Search and Rescue Services 153

8.1 Introduction to LEO Satellites for Search and Rescue Services 153

8.2 SARSAT System 154

8.2.1 SARSAT Space Segment 155