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Future Mobile Communication : From Cooperative Cells to the Post-Cellular Relay Carpet.

Annotation

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Rolny, Raphael T. L.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Berlin : Logos Verlag Berlin, 2016.
Colección:Series in Wireless Communications Ser.
Temas:
Acceso en línea:Texto completo

MARC

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100 1 |a Rolny, Raphael T. L. 
245 1 0 |a Future Mobile Communication :  |b From Cooperative Cells to the Post-Cellular Relay Carpet. 
260 |a Berlin :  |b Logos Verlag Berlin,  |c 2016. 
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490 1 |a Series in Wireless Communications Ser. ;  |v v. 18 
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505 0 |a Intro; 1 Introduction; 1.1 Background & Motivation; 1.2 Main Contributions; 1.3 Outline; 2 Cooperative Cellular Networks; 2.1 Enhance Future Cellular Networks; 2.2 System Model & Assumptions; 2.3 Fundamentals; 2.4 Channel Model; 2.5 Figures of Merit; 3 Locally Restricted BS Cooperation; 3.1 Network Model; 3.2 Block Zero-Forcing; 3.3 Precoder Optimization with Block Zero-Forcing; 3.4 Macro Diversity for High Mobility Users; 3.5 Performance Evaluation; 3.6 Critical Discussion; 4 Small Cells and DF Relaying; 4.1 Network Model & Transmission Schemes; 4.2 Simulation Results. 
505 8 |a 4.3 Critical Discussion4.4 Conclusions; 5 Distributed Cooperation with AF Relays; 5.1 Multihop Networks; 5.2 System Model; 5.3 Distributed Optimization; 5.4 Simulation Results; 5.5 Block Zero-Forcing for Two-Way Relaying; 5.6 Subcarrier Cooperative Two-Way Relay Network; 5.7 Performance Evaluation; 5.8 Application to Cellular Networks; 6 Ubiquitous Relaying; 6.1 Network Model; 6.2 Transmission Schemes; 6.3 Simulation Results; 6.4 Critical Discussion; 6.5 Aspects of Channel Estimation; 7 The Cellular Relay Carpet; 7.1 The Relay Carpet Concept; 7.2 Network Model; 7.3 Scaling Behavior. 
505 8 |a 7.4 Power Control7.5 Conclusions; 8 Post-Cellular Networks; 8.1 System Model; 8.2 Cooperative Precoding; 8.3 Constrained Cluster Optimization; 8.4 Simulation Results & Discussion; 8.5 Conclusions; 9 Conclusions; 9.1 Achievements & Insights; 9.2 Outlook & Future Work. 
520 8 |a Annotation  |b The increasing demand for ubiquitous data service sets high expectations on future cellular networks. They should not only provide data rates that are higher by orders of magnitude than today's systems, but also have to guarantee high coverage and reliability. Thereby, sophisticated interference management is inevitable. The focus of this work is to develop cooperative transmission schemes that can be applied to cellular networks of the next generation and beyond. For this, conventional network architectures and communication protocols have to be challenged and new concepts need to be developed. Starting from cellular networks with base station cooperation, this thesis investigates how classical network architectures can evolve to future networks in which the mobile stations are no longer served by base stations in their close vicinity, but by a dynamic and flexible heterogeneity of different nodes. With the transition from classical cell-based networks to relay enabled post-cellular networks, we trade off node complexity with density. Aggressive spatial multiplexing can thereby deliver high data rates to large areas in a very efficient way, even when the backhaul capacity is limited or when in certain areas no backhaul access is available at all. The beneficial performance scaling shows that such post-cellular networks can offer a flexible and dynamic solution for mobile communication of future generations. 
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830 0 |a Series in Wireless Communications Ser. 
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