ATM & MPLS Theory & Application: Foundations of Multi-Service Networking
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Part I: Overview, Introduction, Background, Motivation, and Standards 1: Introduction to ATM and MPLS and Overview of the Book 2: Background and Motivation for ATM and MPLS Networking 3: ATM- and MPLS-Related Standards Bodies Part II: Networking and Protocol Fundamentals 4: Networks, Circuits, Multiplexing, and Switching 5: Basic Protocol Concepts 6: Time Division Multiplexing and the Narrowband Integrated Services Digital Network 7: Connection-Oriented Protocols-X.25 and Frame Relay 8: Connectionless Protocols-IP and SMDS 9: LANS, Bridging, and Routing Part III: Foundations of ATM and MPLS: Protocol and Structure 10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
2: Background and Motivation for ATM and MPLS Networking 3: ATM- and MPLS-Related Standards Bodies Part II: Networking and Protocol Fundamentals 4: Networks, Circuits, Multiplexing, and Switching 5: Basic Protocol Concepts 6: Time Division Multiplexing and the Narrowband Integrated Services Digital Network 7: Connection-Oriented Protocols-X.25 and Frame Relay 8: Connectionless Protocols-IP and SMDS 9: LANS, Bridging, and Routing Part III: Foundations of ATM and MPLS: Protocol and Structure 10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
Part II: Networking and Protocol Fundamentals 4: Networks, Circuits, Multiplexing, and Switching 5: Basic Protocol Concepts 6: Time Division Multiplexing and the Narrowband Integrated Services Digital Network 7: Connection-Oriented Protocols-X.25 and Frame Relay 8: Connectionless Protocols-IP and SMDS 9: LANS, Bridging, and Routing Part III: Foundations of ATM and MPLS: Protocol and Structure 10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
5: Basic Protocol Concepts 6: Time Division Multiplexing and the Narrowband Integrated Services Digital Network 7: Connection-Oriented Protocols-X.25 and Frame Relay 8: Connectionless Protocols-IP and SMDS 9: LANS, Bridging, and Routing Part III: Foundations of ATM and MPLS: Protocol and Structure 10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
7: Connection-Oriented Protocols-X.25 and Frame Relay 8: Connectionless Protocols-IP and SMDS 9: LANS, Bridging, and Routing Part III: Foundations of ATM and MPLS: Protocol and Structure 10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
9: LANS, Bridging, and Routing Part III: Foundations of ATM and MPLS: Protocol and Structure 10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
10: Introduction to ATM and MPLS 11: ATM and MPLS: Physical Layer and Label Switching Functions 12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
12: ATM Adaptation and MPLS Tunneling Protocols 13: Higher-Level User and Control Plane Protocols 14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
14: MPLS Signaling and Routing Protocols 15: ATM NNI Signalinag and Routing Protocols Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
Part IV: ATM and MPLS Support for Networking Applications 16: Enabling Voice, TDM, and Video Over ATM and MPLS 17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
17: Connection-Oriented Protocol Support 18: ATM and MPLS Support for LAN Protocols 19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
19: ATM and MPLS Support of Enterprise-Level IP Networks Part V: Quality of Service, Traffic Management, and Congestion Control 20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
20: The Traffic Contract and Quality of Service (QoS) 21: Traffic Control, QoS Mechanisms, and Resource Management 22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
22: Congestion Control Part VI: Communications Engineering, Traffic Engineering, and Design Considerations 23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
23: Basic Communications Engineering 24: Traffic Engineering 25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
25: Design Considerations Part VII: Operations and Network Management for ATM and MPLS 26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
26: Operational Philosophy and Network Management Architectures 27: Network Management Protocols and Management Information Bases (MIBs) 28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
28: ATM and MPLS Management and Performance Measurement Part VIII: Design Considerations and Future Directions Involving ATM and MPLS 29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
29: Design Considerations for ATM and MPLS Networks 30: Future Directions and Applications Involving MPLS and ATM Appendix A: Acronyms and Abbreviations Appendix B: References
Appendix A: Acronyms and Abbreviations Appendix B: References
Solve all your networking problems and improve overall performance using this detailed guide to ATM and IP technologies. You’ll get full coverage of circuits, multiplexing, switching, frame relay, bridging, routing, signaling, and much more. This practical guide also covers ATM hardware, software, and high-layer protocols.