06051nam 2200793Ia 450 991082279680332120240618190925.01-281-05059-897866110505970-08-048868-4(CKB)1000000000364102(EBL)294077(OCoLC)469499152(SSID)ssj0000293676(PQKBManifestationID)11195879(PQKBTitleCode)TC0000293676(PQKBWorkID)10302662(PQKB)11765310(Au-PeEL)EBL294077(CaPaEBR)ebr10186085(CaONFJC)MIL105059(PPN)179955292(CaSebORM)9780123705495(MiAaPQ)EBC294077(OCoLC)878059915(OCoLC)ocn878059915(EXLCZ)99100000000036410220060510d2007 uy 0engur|n|---|||||txtrdacontentcrdamediacrrdacarrierDeploying IP and MPLS QoS for multiservice networks theory and practice /John Evans, Clarence FilsfilsFirst editionSan Francisco :Morgan Kaufmann ;Oxford :Elsevier Science [distributor],2007.1 online resource (456 pages)The Morgan Kaufmann Series in Networking.Description based upon print version of record.0-12-370549-5 Includes bibliographical references and index.Front Cover; Deploying IP and MPLS QOS for Multiservice Networks; Copyright Page; Contents; Preface; Acknowledgments; About the authors; Chapter 1 QOS Requirements and Service Level Agreements; 1.1 Introduction; 1.2 SLA Metrics; 1.2.1 Network Delay; 1.2.2 Delay-jitter; 1.2.3 Packet Loss; 1.2.4 Bandwidth and Throughput; 1.2.5 Per Flow Sequence Preservation; 1.2.6 Availability; 1.2.7 Quality of Experience; 1.3 Application SLA Requirements; 1.3.1 Voice over IP; 1.3.2 Video; 1.3.3 Data Applications; 1.4 Marketed SLAs versus Engineered SLAs; 1.4.1 End-to-End SLAs vs Segmented SLAs1.4.2 Inter-provider SLAs1.5 Intserv and Diffserv SLAs; References; Chapter 2 Introduction to QOS Mechanics and Architectures; 2.1 What is Quality of Service?; 2.1.1 Quality of Service vs Class of Service or Type of Service?; 2.1.2 Best-effort Service; 2.1.3 The Timeframes that Matter for QOS; 2.1.4 Why IP QOS?; 2.1.5 The QOS Toolset; 2.2 Data Plane QOS Mechanisms; 2.2.1 Classification; 2.2.2 Marking; 2.2.3 Policing and Metering; 2.2.4 Queuing, Scheduling, Shaping, and Dropping; 2.2.5 Link Fragmentation and Interleaving; 2.3 IP QOS Architectures; 2.3.1 A Short History of IP Quality of Service2.3.2 Type of Service/IP Precedence2.3.3 Integrated Services Architecture; 2.3.4 Differentiated Services Architecture; 2.3.5 IPv6 QOS Architectures; 2.3.6 MPLS QOS Architectures; 2.3.7 IP Multicast and QOS; 2.4 Typical Router QOS Implementations in Practice; 2.5 Layer 2 QOS; 2.5.1 ATM; 2.5.2 Frame-relay; 2.5.3 Ethernet; 2.6 Complementary Technologies; 2.7 Where QOS cannot make a difference; References; Appendix 2.A: Precedence, TOS, and DSCP Conversion; 2.A.1 Notation; 2.A.2 Conversion; Chapter 3 Deploying Diffserv; 3.1 Introduction; 3.2 Deploying Diffserv at the Network Edge3.2.1 Why is the Edge Key for Tight SLA Services?3.2.2 Edge Diffserv Case Study; 3.3 Deploying Diffserv in the Network Backbone; 3.3.1 Is Diffserv Needed in the Backbone?; 3.3.2 Core Case Study; 3.4 Tuning (W)RED; 3.4.1 Tuning the Exponential Weighting Constant; 3.4.2 Tuning Minth and Maxth; 3.4.3 Mark Probability Denominator; 3.4.4 In- and Out-of-contract; References; Chapter 4 Capacity Admission Control; 4.1 Introduction; 4.1.1 When is Admission Control Needed?; 4.1.2 A Taxonomy for Admission Control; 4.1.3 What Information is Needed for Admission Control?4.1.4 Parameterized or Measurements-based Algorithms4.2 Topology-unaware Off-path CAC; 4.3 Topology-aware Off-path CAC: ""Bandwidth Manager""; 4.3.1 Example Bandwidth Manager Method of Operation: Next Generation Network Voice CAC; 4.4 The Integrated Services Architecture/RSVP; 4.4.1 RSVP; 4.4.2 RSVP Example Reservation Setup; 4.4.3 Application Signaling Interaction; 4.4.4 Intserv over Diffserv; 4.4.5 RSVP Aggregation; 4.4.6 RSVP Traffic Engineering; 4.5 NSIS; 4.6 End-system Measurement-based Admission Control; 4.7 Summary; References; Chapter 5 SLA and Network Monitoring; 5.1 Introduction5.2 Passive Network MonitoringQoS, short for "quality of service,? is one of the most important goals a network designer or administrator will have. Ensuring that the network runs at optimal precision with data remaining accurate, traveling fast, and to the correct user are the main objectives of QoS. The various media that fly across the network including voice, video, and data have different idiosyncrasies that try the dimensions of the network. This malleable network architecture poses an always moving potential problem for the network professional.The authors have provided a comprehensive treatise on this subjeThe Morgan Kaufmann Series in NetworkingComputer networksQuality controlComputer networksReliabilityIntegrated services digital networksQuality controlMPLS standardMulticasting (Computer networks)Computer networksQuality control.Computer networksReliability.Integrated services digital networksQuality control.MPLS standard.Multicasting (Computer networks)004.6Evans John(Engineer)386732Filsfils Clarence1700753MiAaPQMiAaPQMiAaPQBOOK9910822796803321Deploying IP and MPLS QoS for multiservice networks4083986UNINA