• 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