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Application Layer Mobility Management Scheme for Wireless Internet

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Title: Application Layer Mobility Management Scheme for Wireless Internet


1
Application Layer Mobility Management Scheme for
Wireless Internet
  • Henning Schulzrinne

2
Outline
  • Introduction
  • A 3G-IP Architecture
  • Mobility Management Requirements and issues
  • Mobility Tiers
  • Architecture Realization
  • Conclusion and Open Issues

3
Introduction
  • It is envisioned that an end-to-end
    wireless/wireline IP platform comprising 3G
    wireless access networks and a wireline IP
    backbone will support real-time and non-real-time
    multimedia services in the future.
  • Mobile IP does not provide means of device
    independent personal mobility and location
    service.

4
Introduction (cont.)
  • SIP supports personal mobility as part of its
    signaling mechanism and provide adequate means of
    terminal, and service mobility.
  • SIP works with other set of IETF protocols such
    as DHCP, AAA, Diffserv to provide different
    functionality such as address assignment,
    security, accounting and QoS.

5
A 3G-IP Architecture
  • A 3G_IP network comprises all IP wireless access
    networks and a packet switched IP backbone
    network.
  • A wireless access network consists of a radio
    access network (RAN), and an Edge Router and
    Controller.

6
A 3G-IP Architecture (cont.)
7
A 3G-IP Architecture (cont.)
  • Radio Access NetworkIt provides MSs with
    wireless access to the wireline infrastructure.
  • Edge Router ControllerAn ERC is a routing and
    control system that connects a wireless access
    network to a regional wireline IP network. An ERC
    comprises two functional entitiesan edge router
    (ER) and an edge control agent (ECA).
  • Domain Control AgentIt provides session
    management as well as the means of interaction
    between users and network control system.

8
A 3G-IP Architecture (cont.)
  • The Domain Control Agent also supports
  • Each domain control agent would interact with
    each other directly or via an Inter-Domain
    control agent.
  • Mobility Management
  • Authentication, Authorization and Accounting
    (AAA)
  • QoS management

9
Mobility Management Requirements and Issues
  • Mobility management scheme of wireless IP
    networks satisfies the following requirements
  • Supports means of personal, service and terminal
    mobility.
  • Supports global roaming.
  • Supports both real-time and non-real-time
    multimedia services
  • Transparently supports TCP based application.
  • Support multicast and anycast.

10
Issues
  • Hand-off
  • Registration
  • Configuration
  • Dynamic Address Binding
  • Location Management

11
Hand-off
  • It is known as hand-over is a process that allows
    an established call to continue when an MS over
    from one cell to another without interruptions in
    the call.
  • Hand-off process can be either hard or soft.
  • A maximum acceptable hand-off time of 2-3 seconds
    is required.

12
Hand-off (cont.)
  • Three logical levels of hand-off procedure can be
    defined
  • Through performing the AAA process to verify
    users identities, hand-off should ensure
    integrity, privacy and confidentiality of users
    location.
  • Cell Hand-off
  • Subnet hand-off
  • Domain hand-off

13
Hand-off (cont.)
14
Registration
  • It is a process by which a network is made aware
    of the existence and location of an MS and its
    associated user.
  • This process comprises sending a registration
    request from the MS to the network and performing
    an AAA process by the network.
  • Depending upon the extent of registration, it ca
    be categorized as complete or expedited/partial
    registration. Former one usually takes more time
    than latter one.

15
Configuration
  • It is a process by which an MS updates its IP
    address as it roams between subnets either within
    the same administrative domain or in different
    administrative domains.
  • Key requirement of re-configurationno more than
    a few hundred milliseconds to complete.
  • The DNS should get updated automatically.

16
Dynamic Address Binding
  • It is a process for allowing an MS to maintain a
    constant identifier regardless of its point of
    attachment to the network after the session is
    established.
  • This must be minimum packet loss and less
    overhead associated with the media.

17
Location Management
  • Location management is a process by which the
    network updates the location database, and
    supports location/redirect services.
  • Location service is essential for new inbound
    sessions, before a session is established.

18
Mobility Tiers
  • Terminal mobility
  • Service mobility
  • Personal mobility
  • For real-time application
  • For non-real-time application

19
Terminal Mobility
  • Multimedia traffic is categorized as real-time or
    non-real-time traffic and is mostly characterized
    by delay and loss factors.
  • Most of the real-time traffic is carried over
    RTP/UDP and non-real-time traffic is carried over
    TCP.
  • Terminal mobility provide means of cell, subnet
    and domain hand-off while the session is in
    progress.

20
Terminal mobility for real-time application
  • Multimedia application are typically RTP/UDP
    based delay and loss are of primary concern.
  • It is necessary to avoid the triangular routing
    and any kind of encapsulation mechanism.
  • Hand-off is an factor for terminal mobility for
    multimedia which would determine the latency.
  • SIP is used to support subnet and domain hand-off
    and it uses a combination of DHCP and an AAA
    protocol.

21
For non-real-time application
  • The MS is equipped with a SIPeye agent that
    maintains a record of its ongoing TCP
    connections.
  • SIPeye records a state comprising 3 integers.
    (original MS IP address, current MS IP address,
    original CH IP address).
  • The CH and the MS use IP encapsulation.

22
Service mobility
  • It allows users to maintain access to their
    services even while moving or changing devices
    and network service providers.
  • Service home provider with service mobility
    should maintain control of the services and QoS
    of ongoing sessions as the user roams around.

23
Personal mobility
  • It refers to the ability of end users to
    originate and receive calls and access the
    subscribed network services on any terminal in
    any location in a transparent manner.
  • SIPs URI scheme and registration mechanism are
    some of the main components which would provide
    personal mobility.
  • A roaming user can be accessible independent of
    the device one is logged on.

24
Architecture realization
  • Testbed

Columbia Universitys sipc (SIP client) and sipd
(SIP server). IEEE 802.11 environment Linux based
25
Architecture realization (cont.)
26
Conclusion and open issues
  • This paper outlines the requirements and issues
    involved with mobility management in a
    3G-wireless Internet environment.
  • It describes an application layer solution to
    variety of mobility to a roaming user by using
    SIP signaling scheme.
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