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Metro Ethernet services for LTE backhaul /
"The backhaul portion of the network is comprised of intermediate links between the core network and the small sub-networks at the "edge" of the entire hierarchical network. This is a critical area because it is the side of the network that communicates with the global Internet. This...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Boston :
Artech House,
[2013]
|
| Colección: | Artech House mobile communications series.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- ""Contents""; ""Acknowledgments""; ""1 Introduction""; ""1.1�Why This Book""; ""1.2�MEN and MEBH Service ""; ""1.3�LTE Architecture Overview""; ""1.4�The Road to Ethernet""; ""1.5�Outline of the Book""; ""Endnotes""; ""2 Constructing MEBH Service""; ""2.1�Design Process�Perspectives""; ""2.2�Common Concepts""; ""2.2.1�Ethernet Frame""; ""2.2.2�UNI and EVC""; ""2.2.3�ENNI and OVC""; ""2.3�Provider�s View""; ""2.3.1�Reference Models""; ""2.3.2�UNI and EVC Attributes""; ""2.3.3�ENNI and OVC Attributes""; ""2.3.4�QoS Profiles ""; ""2.4�Customer�s View""
- ""2.4.1�Reference Model""""2.4.2�Service Functional Groups""; ""2.4.3�MEBH Service Requirements""; ""2.5�Common Grounds""; ""Endnotes""; ""3 Service Functions Technology Overview""; ""3.1�Service Logic""; ""3.1.1�E-Line Service""; ""3.1.2�E-LAN Service""; ""3.1.3�E-Tree Service""; ""3.1.4�Services in Multiprovider Architecture""; ""3.1.5�Layer 2 Control Protocol (L2CP) ""; ""3.2�Service Transport ""; ""3.2.1�Ethernet Technology""; ""3.2.2�Transport Technologies""; ""3.2.3�Comparison of Different Technologies ""; ""3.3�Service Protection ""
- ""3.3.1�Terminology""""3.3.2�Concepts""; ""3.3.3�Estimating Availability""; ""3.3.4�Protected Service Architectures""; ""3.3.5�Implementation ""; ""3.3.6�Measuring Resiliency""; ""3.4�Quality of Service""; ""3.4.1�Bandwidth Concepts""; ""3.4.2�Bandwidth Enforcement""; ""3.4.3�Bandwidth Profiles""; ""3.4.4�Estimating Throughput""; ""3.4.5�QoS�End-to-End View""; ""3.4.6�CoS Classes""; ""3.5�Service Performance ""; ""3.5.1�Metrics""; ""3.5.2�Estimating Latency""; ""3.5.3�MEF Performance Metrics""; ""3.5.4�Multipoint Metrics""; ""3.6�Service Verification""
- ""3.6.1�SOAM """"3.6.2�Service Level Assurance ""; ""3.7�Service Interconnectivity (Engineering Requirements)""; ""3.7.1�Transport Media""; ""3.7.2�Interfaces""; ""3.7.3�Physical Aspects""; ""Endnotes""; ""4 MEBH Service Design""; ""4.1�MEBH Service Logic ""; ""4.1.1�MEBH Using E-Line Service""; ""4.1.2�MEBH Using E-LAN""; ""4.1.3�MEBH Using E-Tree ""; ""4.1.4�MEBH�Mixed Solutions""; ""4.1.5�Multiservice Area MEBH Architecture""; ""4.1.6�L2CP Filtering""; ""4.2�MEBH Transport ""; ""4.3�MEBH Service Protection ""; ""4.3.1�Protection Design""
- ""4.3.2�SRG Analysis""""4.4�MEBH Quality of Service""; ""4.4.1�Bandwidth""; ""4.4.2�Policing and Shaping""; ""4.4.3�CoS Class Selection and Signaling""; ""4.5�MEBH Service Performance""; ""4.6�MEBH Service Verification""; ""4.6.1�Monitoring Overlay""; ""4.6.2�Monitoring Method""; ""4.6.3�SOAM Support""; ""4.7�MEBH Service�Interconnectivity""; ""Endnotes""; ""5 MEBH Service: A Use Case""; ""5.1�Use Case Assumptions""; ""5.2�Use Case Requirements""; ""5.3�Use Case EVC UNI Attribute Table""; ""5.4�Conclusions and Final Thoughts""; ""Endnote""