【资料名称】:Radio Technologies and Concepts for IMT-
【资料作者】:Martin Döttling
【资料日期】:2009.12
【资料语言】:中文
【资料格式】:PDF
【资料目录和简介】:
【内容简介】:Radio Technologies and Concepts for IMT-Advanced presents the findings of the Wireless World Initiative New Radio (WINNER) project in Framework Program 6 of the European Commission. It provides an insight into the key concepts and technologies for the IMT-Advanced radio interface, based on the collaborative research of manufacturers, network operators, research centres and universities within WINNER. The book covers the fundamental radio characteristics of a typical 4G wireless communication system, focusing on the transceiver’s chain from the physical layer to layers 2 and 3. Starting by defining realistic and futuristic usage scenarios, the authors provide in-depth discussion of key technologies including modulation and coding, link level procedures, spatial-temporal processing, multiple access schemes and inter-cell interference mitigation, channel estimation and newly developed channel models. Finally, a cost assessment and optimisation methodology is developed for different deployment concepts in order to assess a wireless system in a condition close to reality. The book provides an important system-level approach to the latest radio technologies in the field, and evaluates IMT-Advanced research in relation to international standardisation.
Presents the research findings of IMT-Advanced radio interface from the WINNER project
Covers the latest concepts for relaying, multiple access, radio resource control,flexible spectrum use, and ITU-R spectrum demand calculation
Examines the most recent Multiple-Input, Multiple-Output (MIMO) techniques, and Distributed Antenna Systems (Coordinated Multipoint Transmissions)
Describes a 4G system concept and all major building blocks
Provides 4G propagation models and system-level evaluation methodologies
About the Editors
Preface
Acknowledgements
Abbreviations
【目录】:
1 Introduction
1.1 Development and status of mobile and wireless communications
1.2 Expectations on growing data traffic
1.3 Development towards systems beyond 3G or IMT-Advanced
1.4 Global research activities
1.5 WINNER project as part of a bigger research initiative
1.6 Future work
References
2 Usage Scenarios and Technical Requirements
2.1 Introduction
2.2 Key Scenario Elements
2.3 Service Classes and Service Requirements
2.4 Requirements for System Capabilities
2.5 Terminal Requirements
2.6 Performance Requirements
2.7 Spectrum Requirements
2.8 Dependency of Requirements
2.9 Conclusion
Acknowledgements
References
3 WINNER II Channel Models
3.1 Introduction
3.2 Modelling Considerations
3.3 Channel-Modelling Approach
3.4 Channel Models and Parameters
3.5 Channel Model Usage
3.6 Conclusion
Acknowledgements
References
4 System Concept and Architecture
4.1 Introduction
4.2 Design Principles and Main Characteristics
4.3 Logical Node Architecture
4.4 Protocol and Service Architecture
4.5 Conclusion
Acknowledgements
References
5 Modulation and Coding Techniques
5.1 Introduction
5.2 Basic Modulation and Coding Scheme
5.3 Coding Schemes
5.4 Link Adaptation
5.5 Link Level Aspects of H-ARQ
5.6 Conclusions
References
6 Link Level Procedures
6.1 Introduction
6.2 Pilot Design
6.3 Channel Estimation
6.4 Radio Frequency Impairments
6.5 Measurements and Signalling
6.6 Link Level Synchronisation
6.7 Network Synchronisation
6.8 Conclusion
Acknowledgments
References
7 Advanced Antennas Concept for 4G
7.1 Introduction
7.2 Multiple Antennas Concept
7.3 Spatial Adaptation
7.4 Spatial Schemes
7.5 Interference Mitigation
7.6 Pilots, Feedback and Measurements
7.7 MIMO Aspects in Relaying
7.8 Conclusion
Acknowledgements
References
8 Layer-2 Relays for IMT-Advanced Cellular Networks
8.1 Introduction
8.2 Motivation for Layer-2 Relays and Prior Work
8.3 Relay-based Deployments
8.4 Design Choices for Relay-based Cellular Networks
8.5 System and Network Aspects
8.6 System-Level Performance Evaluation
8.7 Conclusion
Acknowledgements
References
9 Multiple Access Schemes and Inter-cell Interference Mitigation Techniques
9.1 Introduction
9.2 Multiple Access Schemes
9.3 Inter-cell Interference Mitigation Schemes
9.4 Conclusion
Acknowledgements
References
10 Radio Resource Control and System Level Functions
10.1 Introduction
10.2 IPCL Layer
10.3 Radio Resource Control
10.4 Centralised, Distributed and Hybrid RRM Architecture
10.5 System-Level Performance Results
10.6 Conclusion
Acknowledgements
References
11 Sharing and Flexible Spectrum Use Capabilities
11.1 Introduction
11.2 Spectrum Technologies Framework
11.3 Detailed Design of a Spectrum Assignment Negotiation Mechanism
11.4 Spectrum Assignment Enabling Mechanisms
11.5 WINNER Sharing with FSS
11.6 Performance Evaluation of Spectrum Assignment Mechanisms
11.7 Conclusion
Acknowledgements
References
12 ITU-R Spectrum Demand Calculation for IMT-Advanced
12.1 Introduction
12.2 ITU-R Work on Spectrum Requirements of IMT-Advanced
12.3 ITU-R Spectrum Calculation Methodology
12.4 Software Implementation of Methodology
12.5 Estimated Spectrum Requirements of IMT-Advanced
12.6 Conclusion
Acknowledgements
References
13 System Model, Test Scenarios, and Performance Evaluation
13.1 Introduction
13.2 Performance Assessment of Wireless Networks
13.3 Interface Between Link and System Simulations
13.4 Test Scenarios
13.5 Spectral Efficiency and Number of Satisfied Users under QoS Constraints
13.6 End-to-end Performance Evaluation
13.7 Conclusion
Acknowledgements
References
14 Cost Assessment and Optimisation for WINNER Deployments
14.1 Introduction
14.2 Cost Assessment Framework and Assumptions
14.3 Cost Components
14.4 Cost Assessment Models
14.5 Reference Deployment Scenarios and Cost Assessments
14.6 Conclusion
Acknowledgements
References
[ 本帖最后由 smartcat 于 2010-3-5 11:25 编辑 ]
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