Cover image for Wi-Fi Integration to the 4G Mobile Network

Wi-Fi Integration to the 4G Mobile Network

Author André Pérez
Release Date: 2018/05/01
ISBN: 9781786301734
Topic:
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Book Description

The adoption of smartphones has had as a corollary the use of services that require streaming, such as video streaming, which is a constraint for the 4G mobile network. The integration of the network of Wi-Fi hotspots deployed by the operators adds capacity to the 4G mobile network.
The use of Wi-Fi technology in carrier networks is the result of developments coordinated by the IEEE, WFA and WBA standardization bodies. For its part, the 3GPP standardization body has been working to integrate Wi-Fi technology into the 4G mobile network.
The first part of this book presents the characteristics of the Wi-Fi radio interface. The different IEEE 802.11b / g / n / ac physical layers characterize the implementation in the 2.4 GHz ISM frequency bands and U- NII at 5 GHz. The MAC layer defines a number of media access procedures such as scanning, associating, or transferring data.
The second part of this book deals with the architecture of the 4G network based on the Wi-Fi interface. This architecture defines several models corresponding, on the one hand, to Wi-Fi access controlled or not, On the other hand, to a handover controlled by the network or by the mobile. The integration of Wi-Fi technology resulted in a redefinition of attachment and session set-up procedures.
Smartphones have the ability to activate simultaneously the two radio interfaces, LTE and Wi-Fi, which allows to direct certain services to one and / or the other of the interfaces. The ANDSF and HotSpot 2.0 functions provide the mobile with rules for network selection and traffic control to determine which traffic is to be routed to what type of interface.

Table of Contents

  1. Cover
  2. Title
  3. Copyright
  4. List of Abbreviations
  5. Introduction
    1. I.1. 4G mobile network
    2. I.2. Wi-Fi network
    3. I.3. Wi-Fi integration into the 4G mobile network
    4. I.4. Wi-Fi and LTE access aggregation
  6. 1 Architecture Based on Wi-Fi Access
    1. 1.1. Functional architecture
    2. 1.2. Tunnel establishment
    3. 1.3. DIAMETER protocol
  7. 2 MAC Layer
    1. 2.1. Frame structure
    2. 2.2. Procedures
    3. 2.3. Security
    4. 2.4. Quality of service
  8. 3 802.11a/g Interfaces
    1. 3.1. 802.11a interface
    2. 3.2. 802.11g interface
  9. 4 802.11n Interface
    1. 4.1. MAC layer evolution
    2. 4.2. PLCP sub-layer
    3. 4.3. PMD sub-layer
  10. 5 802.11ac Interface
    1. 5.1. MAC layer
    2. 5.2. PLCP sub-layer
    3. 5.3. PMD sub-layer
  11. 6 Mutual Authentication
    1. 6.1. 802.1x mechanism
    2. 6.2. Key management
    3. 6.3. Application to the 4G mobile network
  12. 7 SWu Tunnel Establishment
    1. 7.1. IPSec mechanism
    2. 7.2. Application to the 4G mobile network
  13. 8 S2a/S2b Tunnel Establishment
    1. 8.1. PMIPv6 mechanism
    2. 8.2. GTPv2 mechanism
    3. 8.3. MIPv4 FA mechanism
  14. 9 S2c Tunnel Establishment
    1. 9.1. MIPv6 mechanism
    2. 9.2. DSMIPv6 mechanism
    3. 9.3. Application to the 4G mobile network
  15. 10 Network Discovery and Selection
    1. 10.1. Mechanisms defined by 3GPP organization
    2. 10.2. Mechanisms defined by IEEE and WFA organizations
  16. 11 Carrier Aggregation
    1. 11.1. Functional architecture
    2. 11.2. Protocol architecture
    3. 11.3. Procedures
    4. 11.4. PDCP
  17. 12 MPTCP Aggregation
    1. 12.1. Functional architecture
    2. 12.2. TCP
    3. 12.3. MPTCP
  18. Bibliography
  19. Index
  20. End User License Agreement
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