A roadmap to future space connectivity : satellite and interplanetary networks / Claudio Sacchi, Fabrizio Granelli, Riccardo Bassoli, Frank H. P. Fitzek, Marina Ruggieri, editors.
Sacchi, Claudio.; Granelli, Fabrizio.; Bassoli, Riccardo.; Fitzek, Frank H. P.; Ruggieri, M. (Marina), 1961-
2023
TL3025
Available Online

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Title A roadmap to future space connectivity : satellite and interplanetary networks / Claudio Sacchi, Fabrizio Granelli, Riccardo Bassoli, Frank H. P. Fitzek, Marina Ruggieri, editors.
ISBN 9783031307621 (electronic bk.)
3031307623 (electronic bk.)
3031307615
9783031307614
DOI https://doi.org/10.1007/978-3-031-30762-1
Publication Details Cham : Springer, 2023.
Language English
Description 1 online resource
Item Number 10.1007/978-3-031-30762-1 doi
Call Number TL3025
Dewey Decimal Classification 629.47/43
Summary This book provides an overview of the latest R&D advancements in the field of ICT technologies inherent to a New Space vision. The book presents a system-level and technology-level description of future space networking and communications. The authors also expand the vision to interplanetary networks. The book spans hardware and software technologies for future space communication networks, also considering very modern paradigms like quantum technologies and Softwarization. In the book, the word space is intended in a wider sense than the usual satellite communications, including new and partially unexplored fields like quantum space communications, interplanetary communications, and extra-terrestrial Radio Access Networks (RANs). The book includes applications including Internet of Space Things, Tactile Internet/Digital twins for Space and discusses future challenges like those involved by the concept of sustainable Space. Provides an overview of the latest R&D advancements in the field of ICT technologies inherent to a New Space vision; Considers visions and perspectives of space technology, including a through overview of satellite communications; Presents a system-level overview of future space networking and communications.
Note Includes index.
Access Note Access limited to authorized users.
Source of Description Online resource; title from PDF title page (SpringerLink, viewed July 20, 2023).
Added Author Sacchi, Claudio.
Granelli, Fabrizio.
Bassoli, Riccardo.
Fitzek, Frank H. P.
Ruggieri, M. (Marina), 1961-
Series Signals and communication technology.
Available in Other Form Print version: 9783031307614
Linked Resources Online Access
Record Appears in Online Resources > Ebooks
All Resources
Intro
Preface
Acknowledgements
Contents
Contributors
Acronyms
Part I Satellite Communication Technology
1 Millimeter Waves and High-Throughput Satellites: The New Frontier Toward Terabit Connectivity in the Sky
1.1 Enhanced System Flexibility and Reconfigurability
1.1.1 Software Defined Networking
1.1.2 SDN-Enabling Payloads
1.1.2.1 Flexible and Reconfigurable Payloads
1.1.2.2 Inter-Satellite Links
1.2 Spectrum and Dynamic Spectrum Access
1.2.1 Current and Planned Allocations
1.2.2 Dynamic Spectrum Access
1.3 System-Level Capacity Improvement

1.3.1 Multi User-MIMO
1.3.1.1 Beam-Centric MIMO
1.3.1.2 User-Centric MIMO
1.3.1.3 MIMO Algorithms and Normalisations
1.3.1.4 Trends and Challenges
1.3.2 Beam-Hopping
1.4 Air Interfaces
1.4.1 Novel Waveforms
1.4.2 Adaptive Modulation and Coding
1.4.3 Air Interfaces for HTS in High Mobility Scenarios
1.4.4 Impact of HW Impairments
1.5 Feeder Link Evolution to Support
1.5.1 Smart Gateway Deployment and On-Ground Architecture
1.5.2 Feeder Link MIMO
1.6 On-Going/Planned Mission/Services and Mega-Constellations
1.7 Final Remarks
References

2 The Role of Satellite in 5G and Beyond
2.1 Non-Terrestrial Networks Standardization
2.1.1 3GPP Release 17: The First 5G NTN-Based Standard
2.1.2 NTN Radio Access Network
2.1.2.1 Direct User Access
2.1.2.2 Relay-Based User Access
2.1.2.3 Multi-Connectivity
2.1.2.4 Radio Protocol Issues and Adaptations
2.1.3 5G-Advanced
2.2 Services
2.3 System Architectures
2.3.1 User Segment
2.3.2 Space Segment
2.3.3 Ground Segment
2.4 Applications
2.5 Research and Development Activities
References
3 Futuristic Satellite Scenarios in 6G

3.1 Vision of 6G and Non-Terrestrial Networks
3.2 Architectural Perspectives of 3D Network in 6G
3.2.1 3D Network Platforms and Frequency Bands
3.2.2 Proposed Implementation
3.3 Localisation and RF Sensing in Satellite Networks
3.3.1 Satellite Network-Based Localisation
3.3.2 Satellite Network-Based RF Sensing
3.4 Design Parameters
3.4.1 UAV-Based Implementation of Relay Protocol in 3D Networks
3.4.1.1 Transmission Delay
3.4.1.2 Session Time
3.4.1.3 Signal-to-Noise Ratio
3.4.1.4 Throughput
3.4.1.5 System Parameters

3.4.2 UAV-Based Implementation of Radio Unit in 3D Networks
3.4.2.1 Fronthaul Bandwidth
3.4.2.2 Theoretical Throughput
3.4.2.3 Connection Density
3.4.2.4 Number of Functions
3.4.2.5 Fronthaul Energy Consumption
References
4 Quantum Satellite Communications
4.1 Introduction
4.2 Introduction to Quantum Communications
4.2.1 Superposition
4.2.2 Multiple Qubits and Entanglement
4.2.3 Bloch Sphere
4.2.4 Quantum Computing Gates
4.2.4.1 Single Qubit Gates
4.2.5 2 Qubit and Multi-Qubit Gates
4.2.6 Bell State Measurement
4.2.7 Entanglement Swapping

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