Wireless ATM and Ad-Hoc Networks Protocols and Architectures

Wireless ATM and Ad-Hoc Networks Protocols and Architectures / by C. K. Toh.

ATM is regarded as the next high speed multimedia networking paradigm. Mobile computing, which is a confluence of mobile communications, computing and networks, is changing the way people work. Wireless ATM combines wireless and ATM technologies to provide mobility support and multimedia services to...

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Bibliographic Details
Main Author: Toh, C. K. (Author)
Corporate Author: SpringerLink (Online service)
Format: eBook
Language:English
Published: New York, NY : Springer US : Imprint: Springer, 1997.
Edition:1st ed. 1997.
Series:Springer eBook Collection.
Subjects:
Computer communication systems.
Electrical engineering.
Multimedia information systems.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.
Table of Contents:
  • 1 Mobile Communications and Computing
  • 1.1 The Evolution of Mobile Communications
  • 1.2 Global Mobile Communications
  • 1.3 Wide Area Mobile Communications
  • 1.4 Local Area Mobile Communications
  • 1.5 Mobility and Adaptability
  • 1.6 Mobile Computing
  • 1.7 Research Challenges in Mobile Computing
  • 1.8 Chapter Summary
  • 2 Fundamentals of Atm and Wireless Atm Networks
  • 2.1 Asynchronous Transfer Mode
  • 2.2 ATM Protocols
  • 2.3 ATM Forum Wireless ATM Working Group
  • 2.4 Wireless ATM Concepts
  • 2.5 Wireless ATM Protocols
  • 2.6 Chapter Summary
  • 3 Architectures of High Speed Wireless Atm Networks
  • 3.1 Introduction
  • 3.2 ETSI HIPERLAN and IEEE 802.11
  • 3.3 America’s SUPERNET and Europe’s RACE MBS
  • 3.4 Architecture Based On Rapid Deployment
  • 3.5 Architecture Based On Mobile Representative
  • 3.6 Architecture Based On Distributed Control
  • 3.7 Architecture Based On Hierarchical Organisation
  • 3.8 Architecture Based On Intelligent Network
  • 3.9 Architecture Based On Virtual Path Overlay
  • 3.10 Cambridge Wireless ATM LAN Architecture
  • 3.11 Chapter Summary
  • 4 Routing and Crossover Atm Switch Discovery
  • 4.1 Introduction
  • 4.2 Link-State Routing
  • 4.3 Distance-Vector Routing
  • 4.4 Minimum-Hop Routing
  • 4.5 ATM Forum’s P-NNI Routing
  • 4.6 IETF I-PNNI Routing
  • 4.7 ATM Connection Management Schemes
  • 4.8 Crossover Switch Discovery
  • 4.9 Implementation Outlines of CX Discovery
  • 4.10 Mobile Quality of Service
  • 4.11 Chapter Summary
  • 5 Wireless Atm Handover Protocol Design
  • 5.1 Introduction
  • 5.2 Existing Handover Schemes
  • 5.3 Classification of Handoff Issues
  • 5.4 Handover Protocol Design Issues
  • 5.5 Handover Protocol Using Radio Hint
  • 5.6 Handover Protocol Without Radio Hint
  • 5.7 Handover Protocol Summary
  • 5.8 Chapter Summary
  • 6 Wireless Atm Handover Protocol Implementation
  • 6.1 Objective
  • 6.2 Cambridge Fairisle ATM Switch
  • 6.3 Wanda Micro-Kernel
  • 6.4 MSNA ATM Protocol Suite
  • 6.5 Experimental Prototype Model
  • 6.6 Performance Comparisons of CR Modules
  • 6.7 Implementation Results and Performance Evaluation
  • 6.8 Comparisons and Related Work
  • 6.9 Design and Implementation Applicability
  • 6.10 Chapter Summary
  • 7 Roaming Between Wireless Atm Lans
  • 7.1 Objective
  • 7.2 Wireless LAN Organisation
  • 7.3 Inter Wireless ATM LAN Roaming
  • 7.4 Handover of A Connection Within A WATM LAN
  • 7.5 Handover of A Connection Across WATM LANs
  • 7.6 Handover of A Connection Across Multiple WATM LANs
  • 7.7 Consistency During Inter WATM LAN Handovers
  • 7.8 Chapter Summary
  • 8 Unicast and Multicast: A Unifying Handover Paradigm
  • 8.1 Objective
  • 8.2 IP and ATM Multicasting
  • 8.3 Multicast Routing Protocols
  • 8.4 Mobile Multicast Connection Establishment
  • 8.5 Handovers of Mobile Multicast Connections
  • 8.6 Inter-Cluster Handovers of Multicast Connections
  • 8.7 Intra-Cluster Handovers of Multicast Connections
  • 8.8 Uniform and Unified Handovers
  • 8.9 Discussion
  • 8.10 Chapter Summary
  • 9 The Cambridge Ad-Hoc Mobile Routing Protocol
  • 9.1 Objective
  • 9.2 Characteristics of Ad-Hoc Mobile Networks
  • 9.3 A Mobile CSCW Application
  • 9.4 Early Ad-Hoc Mobile Routing Schemes
  • 9.5 Current Ad-Hoc Mobile Routing Schemes
  • 9.6 Principles of ABR: Associativity-Based Routing
  • 9.7 ABR Protocol Description
  • 9.8 Comparisons with Existing Protocols
  • 9.9 Dynamic Cell Size Adjustment Scheme (DCSAS)
  • 9.10 Comparing with ETSI HIPERLAN
  • 9.11 Ad-Hoc Mobile Quality of Service
  • 9.12 Chapter Summary
  • 10 Conclusion
  • 10.1 Current Trends and Future of Wireless ATM
  • 10.2 Future Research Work
  • 10.3 Vision 2000 and Beyond
  • Appendices
  • A Formal Statements of CX Discovery Algorithms
  • A.1 Loose Select CX Discovery
  • A.2 Prior Path Knowledge CX Discovery
  • A.3 Prior Path Optimal Resultant CX Discovery
  • A.4 Distributed Hunt CX Discovery
  • A.5 Backward Tracking CX Discovery
  • B HANDOVER PROTOCOL STATE MACHINES
  • B.1 With-Hint Handover Protocol State Machines
  • B.2 Without-Hint Handover Protocol State Machines
  • C Performance Evaluation of CX Discovery Schemes
  • C.1 Objective
  • C.2 Mobile Network Simulation Model
  • C.3 Performance Evaluation of CX Discovery Algorithms
  • C.4 Overall Performance Evaluation Summary
  • C.5 Chapter Summary
  • D Performance Evaluation of Abr and Dcsas
  • D.1 Objective
  • D.2 ABR Simulation and Performance Evaluation
  • D.3 ABR Simulation Results and Observations
  • D.4 DCSAS Simulation and Performance Evaluation
  • D.5 Chapter Summary
  • References
  • Glossary of Terms.

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