Technology Trends in Wireless Communications.

By: Prasad, RamjeeContributor(s): Ruggieri, MarinaMaterial type: TextTextPublisher: Norwood : Artech House, 2003Copyright date: ©2003Description: 1 online resource (328 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781580536387Subject(s): Telecommunication systems -- Technological innovations | Wireless communication systems -- Technological innovationsGenre/Form: Electronic books.Additional physical formats: Print version:: Technology Trends in Wireless CommunicationsDDC classification: 621.382 LOC classification: TK5103.2 -- .P7197 2003ebOnline resources: Click to View
Contents:
Intro -- Contents -- Preface -- Acknowledgements -- 1. Introduction -- 1.1 Evolution of Mobile Networks -- 1.1.1 Evolved Second Generation Systems -- 1.1.2 Third Generation Systems -- 1.1.3 Wireless Local Area Networks -- 1.1.4 Ad Hoc Networks and Wireless Personal Area Networks -- 1.2 Vision -- 1.3 Preview of the Book -- References -- 2. Multiple Access Protocols -- 2.1 Introduction -- 2.1.1 Desired Properties -- 2.2 Classification of MAPs -- 2.3 Random Access Protocols -- 2.3.1 p-ALOHA -- 2.3.2 Slotted-ALOHA -- 2.3.3 Carrier Sense Multiple Access -- 2.3.4 Inhibit Sense Multiple Access -- 2.3.5 Capture Effect -- 2.4 Contentionless MAPs -- 2.4.1 Fixed-Based Assignment Protocols -- 2.4.2 Demand-Based Assignment Protocols -- 2.5 CDMA Protocols -- 2.5.1 DS-CDMA -- 2.5.2 TDMA and CDMA -- 2.5.3 Multicarrier CDMA -- 2.6 MAPs for Wireless Multimedia Communications -- 2.6.1 Dynamic Packet Reservation Multiple Access -- 2.6.2 Centralized-PRMA -- 2.6.3 Multidimensional PRMA with Prioritized Bayesian Broadcast -- 2.6.4 CDMA-Oriented MAC -- 2.6.5 Trends in MAPs Design -- References -- 3. IP Network Issues -- 3.1 Introduction -- 3.2 Mobility Management -- 3.2.1 Mobility Classes -- 3.2.2 Architecture for Mobility Supporting -- 3.3 Mobile IP -- 3.3.1 Mobile IPv4 -- 3.4 IP Pouting -- 3.4.1 Distance Vector Protocols -- 3.4.2 Link State Protocols -- 3.4.3 Routing in Ad Hoc Networks -- 3.4.4 Route Optimization in Mobile IP -- 3.5 IP QoS -- 3.5.1 IntServ and RSVP -- 3.5.2 DiffServ -- 3.5.3 MPLS -- 3.5.4 QoS in Mobile IP -- 3.5.5 IP QoS Among Heterogeneous Networks -- 3.6 Security Issues -- 3.6.1 IPSec -- 3.6.2 AAA -- 3.6.3 Security Issues in Mobile IP -- 3.7 Evolution of Mobile IP -- 3.7.1 Mobile IPv6 -- 3.7.2 Macro/Micromobility Extension to Mobile IP -- 3.7.3 RSVP Support for Mobile IP Version 6 -- 3.8 Conclusions -- References -- 4. TCP over Wireless Links.
4.1 Introduction -- 4.2 Standard TCP/IP Protocol -- 4.2.1 Sliding Window Mechanism -- 4.2.2 End-to-End Flow and Congestion Control -- 4.2.3 Implications of Large Bandwith-Delay Produt -- 4.2.4 Implications of Link with Errors and Mobility -- 4.3 TCP Enhancements -- 4.3.1 Summary of Recommendations -- 4.3.2 Splitting TCP -- 4.3.3 Snooping TCP -- 4.4 Data Link Layer Approach -- 4.4.1 Data Link Layer ARQ Protocols -- 4.5 New Trends in the Wireless Networks Design -- 4.5.1 Improved Link Layer Schemes -- 4.6 Conclusions -- References -- 5. Adaptive Technologies -- 5.1 Introduction -- 5.1.1 Diversity and Adptation Techniques -- 5.1.2 Modulation and Channel Coding -- 5.2 Adaptive Modulation -- 5.2.1 Modulation Parameter Selection -- 5.2.2 Channel Prediction -- 5.2.3 Modulation Parameter Estimation at the Receiver -- 5.2.4 Coding in Adaptive Modulation Schemes -- 5.3 Adaptive Error Control -- 5.3.1 Adaptive FEC -- 5.3.2 Hybrid ARQ -- 5.3.3 Adaptive ARQ -- 5.4 Multilayer Adaptivity -- 5.5 Hardware and Software Implementations -- 5.6 Conclusions -- References -- 6. Radio Resource Management for Wireless Multimedia Communications -- 6.1 Introduction -- 6.1.1 QoS Requirements -- 6.2 General Formulation of the RRM Problem -- 6.3 Radio Resource Management in GPRS -- 6.4 RRM in UMTS -- 6.5 RRM in Future Wireless Systems -- 6.6 Conclusions -- References -- 7. Real-Time Services -- 7.1 Introduction -- 7.2 Packet Networks for Real-Time Services -- 7.2.1 Muliresolution Decomposition -- 7.2.2 Unequal Error Protection -- 7.3 Video Compression Techniques -- 7.3.1 Performance Metrics -- 7.3.2 Quantization -- 7.3.3 Redundancy Removal -- 7.3.4 Lossless Encoding -- 7.4 Video Streaming -- 7.4.1 Standards for Video Streaming -- 7.4.2 Scalability -- 7.4.3 Applications-Layer QoS Mechanisms -- 7.4.4 Joint Source/Channel Coding -- 7.5 VoIP -- 7.6 Conclusions -- References.
8. Personal Area Networks -- 8.1 Introduction -- 8.2 PAN Concept -- 8.2.1 PAN Architecture -- 8.2.2 Applications Scenarios and Service Requirements -- 8.2.3 Possible Devices -- 8.3 State of the Art -- 8.3.1 Standardization Process -- 8.4 Technical Challenges of Future PANs -- 8.4.1 UWB for WPAN -- 8.4.2 Power Efficiency -- 8.4.3 Service Discovery/Selection -- 8.4.4 Security -- 8.4.5 Ad Hoc Networking -- 8.4.6 Coexistance and Interference-Reduction Techniques -- 8.5 Broadband PAN -- 8.6 Conclusions -- References -- 9. Future Vision -- 9.1 Introduction -- 9.1.1 User-Centric Scenario -- 9.2 Scientific Approach -- 9.3 Adaptive and Scalable Air Interfaces -- 9.4 Reconfigurable Ambient Networks -- 9.5 Optical Network Technologies -- 9.6 Multimedia User Interfaces and Context-Aware Technologies -- 9.7 Flexible Platforms -- 9.8 Conclusions -- References -- List of Acronyms -- About the Authors -- Index.
Summary: Whether gaming, constant communications and connectivity, or streaming video and audio is the future killer app that keeps consumers reaching for mobile devices, you can turn to this book for the hands-on technology details you need to know to prepare yourself and your organizations for tomorrow's world of wireless multimedia. The books includes in-depth discussions on the hottest topics in this area, including AAA, multiple access protocols, IPv6 and adaptive technologies. Such resource management strategies as power control, user admission techniques, and congestion control are fully explained, helping you design wireless multimedia systems that provide the required degree of quality of service by effectively utilizing limited radio resources.
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Intro -- Contents -- Preface -- Acknowledgements -- 1. Introduction -- 1.1 Evolution of Mobile Networks -- 1.1.1 Evolved Second Generation Systems -- 1.1.2 Third Generation Systems -- 1.1.3 Wireless Local Area Networks -- 1.1.4 Ad Hoc Networks and Wireless Personal Area Networks -- 1.2 Vision -- 1.3 Preview of the Book -- References -- 2. Multiple Access Protocols -- 2.1 Introduction -- 2.1.1 Desired Properties -- 2.2 Classification of MAPs -- 2.3 Random Access Protocols -- 2.3.1 p-ALOHA -- 2.3.2 Slotted-ALOHA -- 2.3.3 Carrier Sense Multiple Access -- 2.3.4 Inhibit Sense Multiple Access -- 2.3.5 Capture Effect -- 2.4 Contentionless MAPs -- 2.4.1 Fixed-Based Assignment Protocols -- 2.4.2 Demand-Based Assignment Protocols -- 2.5 CDMA Protocols -- 2.5.1 DS-CDMA -- 2.5.2 TDMA and CDMA -- 2.5.3 Multicarrier CDMA -- 2.6 MAPs for Wireless Multimedia Communications -- 2.6.1 Dynamic Packet Reservation Multiple Access -- 2.6.2 Centralized-PRMA -- 2.6.3 Multidimensional PRMA with Prioritized Bayesian Broadcast -- 2.6.4 CDMA-Oriented MAC -- 2.6.5 Trends in MAPs Design -- References -- 3. IP Network Issues -- 3.1 Introduction -- 3.2 Mobility Management -- 3.2.1 Mobility Classes -- 3.2.2 Architecture for Mobility Supporting -- 3.3 Mobile IP -- 3.3.1 Mobile IPv4 -- 3.4 IP Pouting -- 3.4.1 Distance Vector Protocols -- 3.4.2 Link State Protocols -- 3.4.3 Routing in Ad Hoc Networks -- 3.4.4 Route Optimization in Mobile IP -- 3.5 IP QoS -- 3.5.1 IntServ and RSVP -- 3.5.2 DiffServ -- 3.5.3 MPLS -- 3.5.4 QoS in Mobile IP -- 3.5.5 IP QoS Among Heterogeneous Networks -- 3.6 Security Issues -- 3.6.1 IPSec -- 3.6.2 AAA -- 3.6.3 Security Issues in Mobile IP -- 3.7 Evolution of Mobile IP -- 3.7.1 Mobile IPv6 -- 3.7.2 Macro/Micromobility Extension to Mobile IP -- 3.7.3 RSVP Support for Mobile IP Version 6 -- 3.8 Conclusions -- References -- 4. TCP over Wireless Links.

4.1 Introduction -- 4.2 Standard TCP/IP Protocol -- 4.2.1 Sliding Window Mechanism -- 4.2.2 End-to-End Flow and Congestion Control -- 4.2.3 Implications of Large Bandwith-Delay Produt -- 4.2.4 Implications of Link with Errors and Mobility -- 4.3 TCP Enhancements -- 4.3.1 Summary of Recommendations -- 4.3.2 Splitting TCP -- 4.3.3 Snooping TCP -- 4.4 Data Link Layer Approach -- 4.4.1 Data Link Layer ARQ Protocols -- 4.5 New Trends in the Wireless Networks Design -- 4.5.1 Improved Link Layer Schemes -- 4.6 Conclusions -- References -- 5. Adaptive Technologies -- 5.1 Introduction -- 5.1.1 Diversity and Adptation Techniques -- 5.1.2 Modulation and Channel Coding -- 5.2 Adaptive Modulation -- 5.2.1 Modulation Parameter Selection -- 5.2.2 Channel Prediction -- 5.2.3 Modulation Parameter Estimation at the Receiver -- 5.2.4 Coding in Adaptive Modulation Schemes -- 5.3 Adaptive Error Control -- 5.3.1 Adaptive FEC -- 5.3.2 Hybrid ARQ -- 5.3.3 Adaptive ARQ -- 5.4 Multilayer Adaptivity -- 5.5 Hardware and Software Implementations -- 5.6 Conclusions -- References -- 6. Radio Resource Management for Wireless Multimedia Communications -- 6.1 Introduction -- 6.1.1 QoS Requirements -- 6.2 General Formulation of the RRM Problem -- 6.3 Radio Resource Management in GPRS -- 6.4 RRM in UMTS -- 6.5 RRM in Future Wireless Systems -- 6.6 Conclusions -- References -- 7. Real-Time Services -- 7.1 Introduction -- 7.2 Packet Networks for Real-Time Services -- 7.2.1 Muliresolution Decomposition -- 7.2.2 Unequal Error Protection -- 7.3 Video Compression Techniques -- 7.3.1 Performance Metrics -- 7.3.2 Quantization -- 7.3.3 Redundancy Removal -- 7.3.4 Lossless Encoding -- 7.4 Video Streaming -- 7.4.1 Standards for Video Streaming -- 7.4.2 Scalability -- 7.4.3 Applications-Layer QoS Mechanisms -- 7.4.4 Joint Source/Channel Coding -- 7.5 VoIP -- 7.6 Conclusions -- References.

8. Personal Area Networks -- 8.1 Introduction -- 8.2 PAN Concept -- 8.2.1 PAN Architecture -- 8.2.2 Applications Scenarios and Service Requirements -- 8.2.3 Possible Devices -- 8.3 State of the Art -- 8.3.1 Standardization Process -- 8.4 Technical Challenges of Future PANs -- 8.4.1 UWB for WPAN -- 8.4.2 Power Efficiency -- 8.4.3 Service Discovery/Selection -- 8.4.4 Security -- 8.4.5 Ad Hoc Networking -- 8.4.6 Coexistance and Interference-Reduction Techniques -- 8.5 Broadband PAN -- 8.6 Conclusions -- References -- 9. Future Vision -- 9.1 Introduction -- 9.1.1 User-Centric Scenario -- 9.2 Scientific Approach -- 9.3 Adaptive and Scalable Air Interfaces -- 9.4 Reconfigurable Ambient Networks -- 9.5 Optical Network Technologies -- 9.6 Multimedia User Interfaces and Context-Aware Technologies -- 9.7 Flexible Platforms -- 9.8 Conclusions -- References -- List of Acronyms -- About the Authors -- Index.

Whether gaming, constant communications and connectivity, or streaming video and audio is the future killer app that keeps consumers reaching for mobile devices, you can turn to this book for the hands-on technology details you need to know to prepare yourself and your organizations for tomorrow's world of wireless multimedia. The books includes in-depth discussions on the hottest topics in this area, including AAA, multiple access protocols, IPv6 and adaptive technologies. Such resource management strategies as power control, user admission techniques, and congestion control are fully explained, helping you design wireless multimedia systems that provide the required degree of quality of service by effectively utilizing limited radio resources.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2018. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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