Multi-Satellite Relay Transmission in 5G: Concepts, Techniques, and Challenges

The demands of 5G mobile communications, such as higher throughput and lower latency in future communications, has promoted more advanced communication technologies and heterogeneous network integration. Satellite communication has been recently considered as a key part of 5G for the benefits of meeting the availability and ubiquitous coverage requirements targeted by 5G. As a potential 5G technology, multi-satellite cooperative transmission systems have been studied, as they can provide the high throughput brought by virtual multiple-input multiple-output structures. In this article, we briefly review the concepts and techniques of multi-satellite cooperative transmission systems in 5G. Moreover, the architectures of two multi-satellite relay transmission systems based on TDMA and NOMA are introduced. In particular, we focus more on the performance evaluation and research challenges of the TDMAbased architecture to explore its system optimizing approach. Finally, to exploit the full potential of multi-satellite systems in 5G networks, future trends and challenges are discussed.

[1]  Feng Liu,et al.  Cooperative transmission over Rician fading channels for geostationary orbiting satellite collocation system , 2017, IET Commun..

[2]  Erik G. Larsson,et al.  Massive MIMO for next generation wireless systems , 2013, IEEE Communications Magazine.

[3]  Manav R. Bhatnagar,et al.  Beamforming and Combining in Hybrid Satellite-Terrestrial Cooperative Systems , 2014, IEEE Communications Letters.

[4]  Eylem Ekici,et al.  MLSR: a novel routing algorithm for multilayered satellite IP networks , 2002, TNET.

[5]  Cheng-Shang Chang,et al.  Stability, queue length, and delay of deterministic and stochastic queueing networks , 1994, IEEE Trans. Autom. Control..

[6]  Symeon Chatzinotas,et al.  Distributed Optimization for Coordinated Beamforming in Multicell Multigroup Multicast Systems: Power Minimization and SINR Balancing , 2017, IEEE Transactions on Signal Processing.

[7]  Min Jia,et al.  Joint UE Location Energy-Efficient Resource Management in Integrated Satellite and Terrestrial Networks , 2018, Journal of Communications and Information Networks.

[8]  B. Lankl,et al.  Optimum-Capacity MIMO Satellite Broadcast System: Conceptual Design for LOS Channels , 2008, 2008 4th Advanced Satellite Mobile Systems.

[9]  Symeon Chatzinotas,et al.  Spectrum sharing in hybrid terrestrial-satellite backhaul networks in the Ka band , 2017, 2017 European Conference on Networks and Communications (EuCNC).

[10]  H. Vincent Poor,et al.  Application of Non-Orthogonal Multiple Access in LTE and 5G Networks , 2015, IEEE Communications Magazine.

[11]  Muhammad Ali Imran,et al.  The role of satellites in 5G , 2014, 2015 23rd European Signal Processing Conference (EUSIPCO).

[12]  Yan Chen,et al.  A rate-splitting non-orthogonal multiple access scheme for uplink transmission , 2017, 2017 9th International Conference on Wireless Communications and Signal Processing (WCSP).

[13]  Symeon Chatzinotas,et al.  Precoding in Multibeam Satellite Communications: Present and Future Challenges , 2015, IEEE Wireless Communications.

[14]  Riccardo De Gaudenzi,et al.  MIMO over Satellite: A Review , 2011, IEEE Communications Surveys & Tutorials.