Handbook on Land Mobile – Volume 5 – Deployment of Broadband Wireless Access Systems
DISCLAIMERS, COPYRIGHTS AND TRADEMARKS
Foreword
TABLE OF CONTENTS
CHAPTER 1 – INTRODUCTION
1.1 Purpose and scope of Handbook on Land Mobile
1.2 Background
1.3 Societal economic benefits of broadband
1.4 Organization of Volume 5
CHAPTER 2 – OVERVIEW OF BROADBAND ACCESS SERVICES,SERVICE TRENDS AND APPLICATIONS
2.1 Introduction
2.2 BWA defined
2.3 Application trends
2.3.1 E-Health
2.3.2 E-Learning
2.4 Service environment: urban, suburban, remote and rural
2.5 Fixed, nomadic and mobile applications
2.5.1 Fixed applications – General
2.5.2 Nomadic applications – General
2.5.3 Mobile applications
CHAPTER 3 – BROADBAND WIRELESS ACCESS SYSTEMS
3.1 Introduction
3.2 Broadband wireless access standards
CHAPTER 4 –OPERATIONAL REQUIREMENTS
4.1 Introduction
4.2 Spectrum needs of operators
4.3 Typical frequency bands / spectrum
4.3.1 Licence-exempt bands
4.3.2 Licensed bands
4.3.3 Non-exclusive licensed bands
4.3.4 Spectrum deployment aspects: the use of harmonized frequency arrangements
4.4 Guidance on regulatory issues
4.4.1 Benefits of technology neutral regulation
4.4.2 Benefits of spectrum harmonization
CHAPTER 5 –SYSTEM DEPLOYMENT GUIDELINES
5.1 Introduction: Key issues to consider prior to deployment
5.2 Deployment considerations: wireline vs. wireless
5.3 Designing BWA deployments for profitability
5.4 Technical evolution / migration to next generation systems
5.5 Sharing with other systems
5.5.1 BWA systems and sharing with other systems
CHAPTER 6 – SYSTEM TOPOLOGIES / ARCHITECTURE
6.1 RLAN
6.2 Mesh network
6.3 Cellular network architecture
6.4 Femtocells
ANNEX A
1 Abbreviations and Acronyms
2 Further description of some terminology and definitions
ANNEX B – DESCRIPTIONS OF STANDARDS
1 High Capacity-Spatial Division Multiple Access (HC-SDMA) radio interface technology and iBurst™ broadband wireless system
1.1 Overview: HC-SDMA
1.2 Description of the HC-SDMA radio interface
1.2.1 Air interface handover
1.2.2 Adaptive multi-antenna signal processing technology
1.2.3 Spectral efficiency of the HC-SDMA radio interface
1.2.4 Radio system capacity and economics
1.3 iBurst network architecture
1.4 iBurst protocol stack
1.5 iBurst network service offerings
1.5.1 Mobile service offering
1.5.2 Fixed / Portable service offering
1.6 iBurst commercial network performance
2 eXtended Global Platform: XGP
2.1 Background: eXtended Global Platform: XGP
2.2 Features of eXtended Global Platform in comparison with the Enhanced PHS
2.3 Link access technique
2.4 Other major techniques
2.4.1 Link adaptation control
2.4.2 Autonomous decentralized control method for the channel assignment
2.4.3 Error detection and correction
2.4.4 H-ARQ
2.5 System architecture
2.6 Cell designing of eXtended Global Platform
3 IMT-2000 CDMA Multi-Carrier
3.1 Introduction
3.2 CDMA2000 1xEV-DO Release 0
3.3 CDMA2000 1xEV-DO Revision A
3.3.1 Downlink
3.3.2 Uplink
3.3.3 Comprehensive centralized control
3.4 CDMA2000 1xEV-DO Revision B
3.4.1 Fundamental concepts
4 IMT-2000 CDMA DS, CDMA TDD and TDMA-SC
4.1 Technology overview
4.2 Examples of deployments using this standard
4.3 Evolution to higher speeds and better performance
4.4 Air interface
4.5 WCDMA / HSPA system architecture
4.6 LTE System architecture
4.7 Deployments and trends
5 Ultra Mobile Broadband
5.1 Introduction
5.2 Ultra mobile broadband numerology
5.3 H-ARQ timelines
5.4 Forward link traffic channel
5.5 MIMO design
5.6 Closed loop precoding and SDMA
5.7 Handoff design
5.8 Interference management
5.9 Fractional frequency reuse
5.10 Conclusion
6 Harmonized IEEE and ETSI radio interface standards, WiMAX, for broadband wireless access (BWA) systems including mobile and nomadic applications in themobile service
6.1 Overview of the radio interface
6.2 Detailed specification of the radio interface
6.2.1 IEEE 802.16/WiMAX
6.3 IEEE 802.16 Air interface for broadband wireless access
6.3.1 WiMAX system architecture
6.4 ETSI standards
6.5 IMT-2000 OFDMA TDD WMAN
6.6 Examples of deployments using this standard
ANNEX C –PUBLICATIONS ON BWA
1 Overview
2 ITU-R Publications
2.1 Resolutions
2.2 Recommendations
2.3 Reports
2.4 Handbooks
ANNEX D TECHNICAL ASPECTS OF SPECTRUM DEPLOYMENT
1 Introduction
2 Fundamental technical considerations
3 Overarching aspects of base stations and terminal devices
3.1 Interference scenarios and filter requirements
4 Base station to base station aspects
4.1 Filters and guard bands
4.2 Geographic separation to avoid co-channel interference
4.3 Guidance for performing calculations for specific deployment situations
5 Mobile to mobile station aspects
6 Summary of guidelines
ANNEX E – MODULATION TECHNIQUES IN BROADBAND RLANs
1 Introduction
2 Physical layer to realize high bit rate and stable wireless networks
3 Single carrier with equalizer
4 Multicarrier OFDM
5 Configuration of OFDM system
6 Computer simulation
ANNEX F –REMOTE ACCESS TECHNIQUES IN RLANs
1 Introduction
2 Remote access techniques
2.1 Dial-up connection
2.2 Dynamic Host Configuration Protocol
2.3 Mobile IP
2.4 Virtual Local Area Network
2.5 Mobile Virtual Local Area Network
3 Evaluation
APPENDIX 1 TO ANNEX F – OUTLINE OF MOBILE VLAN SYSTEM
1 System composition
2 Major techniques of mobile Virtual Local Area Network
2.1 Terminal authentication, location registration, connection
2.2 Encapsulation / de-encapsulation
2.3 Recognition of terminal disconnection
ANNEX H –USER DEMOGRAPHICS AND NEEDS
REFERENCES