Advances in Communications Satellite Systems

Ifiok Otung is Professor of Satellite Communications at the University of South Wales (USW), UK. His areas of expertise include Mobile & Satellite Communication Systems and Radiowave Propagation. He is a Chartered Engineer with a broad and international experience of research and teaching at various universities in Europe and Africa. He earned his PhD in Satellite Communications from the University of Surrey, UK. He has written several advanced books including Digital Communications: Principles and systems (IET, 2014). He is a member of the IET and AIAA. Thomas Butash founded Innovative Aerospace IS in 2011 to provide consulting services on state-of-the-art aerospace information systems (IS), with a focus on communications satellite systems design. Previously, he was a Technical Director and Engineering Fellow at BAE Systems (formerly Lockheed Martin, Loral and IBM) Space Systems & Electronics, with more than 30 years' experience in communications satellite systems development. Peter Garland has worked on Satellite Communications in Canada for well over 35 Years. During that time he has been involved in nearly every program where the state of art was moved forward. In the mid-nineties he led studies that eventually resulted in the flight of an advanced Ka Band digital processing payload on the Anik F2 satellite. He also led the team that first developed and promoted the DVB-RCS standard for two way satellite communications. Peter was recently presented with the 2014 American Institute of Aeronautics and Astronautics (AIAA) award for achievement in Aerospace Communications, only the second Canadian and the second UK born recipient to be presented with this international award. He is also currently Chairman of the Communications Systems Technical Committee of the AIAA.

Section 1: Multi-beam Satellite Systems

Chapter 1: Symbol vs block level precoding in multi-beam satellite systems
Chapter 2: Hardware Demonstration of Precoded Communications in Multi-Beam UHTS
Chapter 3: On the capacity of asynchronous cooperative NOMA in multibeam satellite systems
Chapter 4: Overlapping clustering for beam-hopping systems
Chapter 5: Adjacent beams resource sharing to serve hot spots: a rate-splitting approach



Section 2: Cognitive Communications and Propagation Channel Optimization

Chapter 6: Time Correlation Used to Improve Time Diversity Gain of Rainfall Prediction
Chapter 7: Protection of the Mobile Station from the Interference by Maritime Earth Station in Motion in the 28 GHZ Band
Chapter 8: Rateless codes for satellite systems over rain fading channels
Chapter 9: Channel States Information based Spectrum Sensing Algorithm in Satellite Cognitive Communication Networks
Chapter 10: Wideband nonlinearities correction in digital payloads channels with parallel architectures



Section 3: Flexible High Throughput Satellite Systems and Interference Mitigation Techniques

Chapter 11: Modifications to Multi-beam Systems for DRRM
Chapter 12: Adaptive Resources Allocation for Flexible Payload enabling VHTS systems: Methodology and Architecture
Chapter 13: Adaptive Onboard Compensation of Non-Linear HPAs and Imperfect Butler Matrices in Multiport Amplifiers for High Throughput Satellites
Chapter 14: Distributed precoding for multiple satellite systems with overlapping coverage areas
Chapter 15: Productized Multicarrier Predistortion Total Throughput Gains around 20% over Linearized Channels in True Customer Use Cases
Chapter 16: A mitigation technique for adjacent channel interference in communication satellites



Section 4: New Satellite System Architectures and Components

Chapter 17: Novel RF architectures and technologies for VSAT
Chapter 18: A Modular Architecture for Low Cost Phased Array Antenna System for Ka-Band Mobile Satellite Communication
Chapter 19: A cots-based software-defined communication system platform and applications in LEO
Chapter 20: V-band low-noise amplifier module for high throughput satellite applications
Chapter 21: Satellite payload design for cislunar communications



Section 5: High Speed Optical Communications and Feeder Links

Chapter 22: Alphasat, Sentinel-1A/B, Sentinel-2A/B, and EDRS Paving the Way for Systematic Optical Data Transfer for Earth Observation Missions
Chapter 23: Diversity Architectures for High Data Rate Ground-to-Satellite Optical and EHF Links
Chapter 24: Research and development approach to realize flexible optical ground network operations for effective data downlink from space to ground



Section 6: VHF Data Exchange Systems

Chapter 25: On the VHF radio channel for the data exchange system via satellite (VDE-SAT); experimental results from the NORSAT-2 satellite experiment
Chapter 26: Field trials of the VHF data exchange system (VDES) satellite downlink component



Section 7: Mobile Satellite Systems and Bandwidth Efficient Techniques

Chapter 27: Mobility enhancement for digital video broadcast networks via satellite
Chapter 28: System level modelling of DVB-S2X in high throughput satellite system
Chapter 29: Demonstration of Autonomous Bandwidth Allocation Scheme using SC-FDMA subcarrier switching
Chapter 30: Robust initial access technique of spread spectrum based on DVB-RCS2 standard for mobile application
Chapter 31: Beam-hopping over-the-air tests using DVB-S2X super-framing



Section 8: Transmitter and Modern Technologies

Chapter 32: Maximizing data throughput in earth observation satelliteto ground transmission by employing a flexible high data rate transmitter operating in X-Band and Ka-Band
Chapter 33: Implementation of a Machine Learning Based Modulation Scheme in GNURadio for Over-the-Air Packet Communications
Chapter 34: An efficiency comparison between timeslicing and multi-carrier transmission for linearized transponders



Section 9: 5G and Satellite Networks Integration

Chapter 35: Efficient 5G Edge Caching Over Satellite
Chapter 36: Use cases to business modelling of satellite backhaul in 5G
Chapter 37: 5G technologies for a communications and navigation integrated infrastructure on moon and mars



Section 10: Satellite Networks Design Challenges and Applications

Chapter 38: Capacity enhancement and interference management for interactive satellite networks
Chapter 39: VLEO Satellites - a New Earth Observation Space Systems Commercial and Business Model
Chapter 40: Towards the Internet for Space: bringing cloud computing to space systems