Traffic Engineering and QoS Optimization of Integrated Voice and Data NetworksElsevier, 2006. gada 3. nov. - 512 lappuses This book describes, analyzes, and recommends traffic engineering (TE) and quality of service (QoS) optimization methods for integrated voice/data dynamic routing networks. These functions control a network's response to traffic demands and other stimuli, such as link failures or node failures. TE and QoS optimization is concerned with measurement, modeling, characterization, and control of network traffic, and the application of techniques to achieve specific performance objectives. The scope of the analysis and recommendations include dimensioning, call/flow and connection routing, QoS resource management, routing table management, dynamic transport routing, and operational requirements. Case studies are included which provide the reader with a concrete way into the technical details and highlight why and how to use the techniques described in the book.
|
Saturs
1 | |
59 | |
Chapter 3 Traffic Engineering and QoS Optimization of MPLSBased Integrated VoiceData Dynamic Routing Networks | 99 |
Chapter 4 Routing Table Management Methods and Requirements | 139 |
Chapter 5 Traffic Engineering and QoS Optimization of GMPLSBased Multilayer Dynamic Routing Networks | 177 |
Chapter 6 Optimization Methods for Routing Design and Capacity Management | 215 |
Chapter 7 Traffic Engineering and QoS Optimization Operational Requirements | 263 |
Traffic Engineering and QoS Optimization for Operational Integrated VoiceData Dynamic Routing Networks | 289 |
Traffic Engineering and QoS Optimization for Operational Integrated VoiceData Dynamic Routing Networks | 319 |
Chapter 10 Summary Conclusions and Generic Traffic Engineering and QoS Optimization Requirements | 369 |
Appendix A Traffic Engineering and QoS Optimization Technology Overview | 409 |
Glossary | 429 |
References and Bibliography | 439 |
Index | 455 |
Citi izdevumi - Skatīt visu
Traffic Engineering and QoS Optimization of Integrated Voice & Data Networks Gerald R. Ash Priekšskatījums nav pieejams - 2007 |
Bieži izmantoti vārdi un frāzes
algorithm alternate path alternate routing bandwidth allocation bandwidth reservation BellHead best-effort call/session capacity design capacity management Chapter congestion connection request cost crankback CRLSP DEFO model DiffServ DNHR DSTE dynamic routing dynamic routing networks dynamic transport routing example failure flat topologies focused overload functions GMPLS GTQO protocol hierarchical IETF implementation integrated voice/data internetwork ISDN layer link bandwidth link capacity logical link meshed meshed network MPLS MPLS LSP multilink multiservice NetHead network capacity network design network model network performance network topology node pair normal-priority optimization options OSPF packet parameters path computation per-flow per-VNET PNNI priority provides QoS resource management queues queuing real-time requirements router routing design routing methods routing table routing table management RSVP RTNR/COS setup shortest path simulation model sparse STT-EDR switching traffic engineering traffic load traffic loss rate traffic management transport network VNET voice voice/ISDN WNET
Populāri fragmenti
ii. lappuse - Kenneth L. Calvert TCP/IP Sockets in C: Practical Guide for Programmers Kenneth L. Calvert and Michael J. Donahoo Multicast Communication: Protocols, Programming, and Applications Ralph Wittmann and Martina Zitterbart MPLS: Technology and Applications Bruce Davie and Yakov Rekhter High-Performance Communication Networks, 2e Jean Walrand and Pravin Varaiya Internetworking Multimedia Jon Crowcroft, Mark Handley, and Ian Wakeman Understanding Networked Applications: A First Course David G. Messerschmitt...
34. lappuse - Each node distributes its local state throughout the network by flooding, and constructs a tree of shortest paths with itself as the root. This shortest-path tree gives the route to each destination in the node.
ii. lappuse - Systems Approach, 3e Larry L. Peterson and Bruce S. Davie Network Architecture, Analysis, and Design, 2e James D. McCabe MPLS Network Management: MIBs, Tools, and Techniques Thomas D. Nadeau Developing IP-Based Services: Solutions for Service Providers and Vendors Monique Morrow and Kateel Vijayananda Telecommunications Law in the Internet Age Sharon K. Black Optical Networks: A Practical Perspective, 2e Rajiv Ramaswami and Kumar N. Sivarajan Internet QpS: Architectures and Mechanisms Zheng Wang...
ii. lappuse - Tools, and Techniques Thomas D. Nadeau Developing IP-Based Services: Solutions for Service Providers and Vendors Monique Morrow and Kateel Vijayananda Telecommunications Law in the Internet Age Sharon K. Black Optical Networks: A Practical Perspective, 2e Rajiv Ramaswami and Kumar N. Sivarajan Internet QoS: Architectures and Mechanisms Zheng Wang TCP/IP Sockets in Java: Practical Guide for Programmers Michael J. Donahoo and Kenneth L. Calvert TCP/IP Sockets in C: Practical Guide for Programmers Kenneth...
411. lappuse - In MPLS, the assignment of a particular packet to a particular FEC is done just once, as the packet enters the network. The FEC to which the packet is assigned is encoded as a short fixed-length value known as a label. When a packet is forwarded to its next hop, the label is sent along with it; that is, the packets are labeled before they are forwarded.
411. lappuse - ... labeled" before they are forwarded. At subsequent hops, there is no further analysis of the packet's network layer header. Rather, the label is used as an index into a table that specifies the next hop and a new label. The old label is replaced with the new label, and the packet is forwarded to its next hop. In the MPLS forwarding paradigm, once a packet is assigned to a FEC, no further header analysis is done by subsequent routers; all forwarding is driven by the labels.
ii. lappuse - Approach to Designing Fast Networked Devices George Varghese Network Recovery: Protection and Restoration of Optical, SONET-SDH, IP, and MPLS Jean Philippe Vasseur, Mario Pickavet, and Piet Demeester Routing, Flow, and Capacity Design in Communication and Computer Networks Michal Pioro and Deepankar Medhi Wireless Sensor Networks: An Information Processing Approach Feng Zhao and Leonidas Guibas Communication Networking: An Analytical Approach Anurag Kumar, D. Manjunath, and Joy Kuri The Internet...
439. lappuse - Servicing and Real-Time Control of Networks with Dynamic Routing," Bell System Technical Journal, Vol. 60, No. 8, October 1981.
448. lappuse - B. Davie. Aggregation of RSVP for IPv4 and IPv6 Reservations.
448. lappuse - A Framework for Integrated Services Operation over Diffserv Networks,