Implementing IP and ethernet on the 4G mobile network /

Implementing IP and Ethernet on the 4G Mobile Network delves into the 4G mobile network that allows an IP packet transmitted by a mobile to be transported to its gateway, reciprocally using the following networks: MPLS-VPN, VPLS and OTN. The mechanisms for the implementation of quality of service (Q...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Perez, Andr�e (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Oxford : ISTE Press ; Elsevier, 2017.
Temas:
Mobile communication systems.
Broadband communication systems.
Internet Protocol multimedia subsystem.
Ethernet (Local area network system)
Radiocommunications mobiles.
Syst�emes de t�el�ecommunications �a large bande.
Sous-syst�eme multim�edia IP.
Ethernet (Syst�eme de r�eseau local)
COMPUTERS > Computer Literacy.
COMPUTERS > Computer Science.
COMPUTERS > Data Processing.
COMPUTERS > Hardware > General.
COMPUTERS > Information Technology.
COMPUTERS > Machine Theory.
COMPUTERS > Reference.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Implementing IP and Ethernet on the 4G Mobile Network
  • Copyright
  • Contents
  • Preface
  • List of Abbreviations
  • 1. Mobile Network Architecture
  • 1.1. Functional architecture
  • 1.2. Protocol architecture
  • 2. Mobile Network Signaling Protocols
  • 2.1. NAS protocol
  • 2.2. RRC protocol
  • 2.3. S1-AP protocol
  • 2.4. X2-AP protocol
  • 2.5. GTPv2-C protocol
  • 2.6. DIAMETER protocol
  • 3. Mobile Network Procedures
  • 3.1. Attachment
  • 3.2. Location update
  • 3.3. Session establishment
  • 3.4. Handover
  • 4. Transport Network MPLS-VPN Technology
  • 4.1. MPLS network
  • 4.2. VPN function
  • 5. Transport Network VPLS Technology
  • 5.1. Network architecture
  • 5.2. MAC address management
  • 5.3. EoMPLS header
  • 5.4. LDP protocol
  • 5.5. MP-BGP protocol
  • 6. Transport Network OTN Technology
  • 6.1. OTN architecture
  • 6.2. Time-division multiplexing structure
  • 6.3. Over-head structure
  • 6.4. GFP protocol
  • 7. Quality of Service Principles
  • 7.1. Introduction
  • 7.2. Parameters for the QoS
  • 7.3. QoE characterization
  • 8. Quality of Service Mobile Network
  • 8.1. Flow and bearer
  • 8.2. QoS characteristics
  • 8.3. Configuring QoS
  • 9. Quality of Service Transport Network
  • 9.1. IP technology
  • 9.2. Ethernet technology
  • 9.3. MPLS technology
  • 9.4. Rate control
  • 9.5. Behavior
  • 10. Security Principles
  • 10.1. Security services
  • 10.2. Encryption function
  • 10.3. Hash function
  • 11. Security Mobile Network
  • 11.1. Security architecture
  • 11.2. Mutual authentication
  • 11.3. NAS security
  • 11.4. LTE-Uu security
  • 11.5. Security context
  • 12. Security Transport Network
  • 12.1. IPSec architecture
  • 12.2. IKEv2 protocol
  • 12.4. Security architecture over S1 interface
  • 13. Synchronization Principles
  • 13.1. Synchronization types
  • 13.2. Clock characteristics
  • 13.3. Synchronization requirements.
  • 14. Synchronization SyncE Mechanism
  • 14.1. Synchronization network architecture
  • 14.2. Control channel ESMC
  • 14.3. Network architecture based on EEC functions
  • 15. Synchronization IEEE 1588 Mechanism
  • 15.1. Synchronization network architecture
  • 15.2. Time synchronization principles
  • 15.3. PTP messages
  • Bibliography
  • Index
  • Back Cover.

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