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UTDETRI Mid year project presentation

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Title: UTDETRI Mid year project presentation


1
UTD-ETRI Mid year project presentation
  • Shanthy Menezes, S. Venkatesan
  • UT-Dallas

2
Characteristics of Interworking Scenarios2
3
Research on Interworking Architectures
  • Broadband Radio Access Networks (BRAN) by ETSI3
  • WLAN-GPRS integration by Salkintzis et al.4
  • Evaluation of architectures by Tsao and Lin5

4
BRAN by ETSI
  • Two architectures defined for interworking
    between HIPERLAN/2 and 3G systems
  • Loose coupling is defined as the utilization of
    HIPERLAN/2 as an access network complementary to
    current 3G access networks, utilizing the
    subscriber databases but without any user plane
    Iu type interface, i.e. avoiding the SGSN, GGSN
  • Connecting HIPERLAN/2 network to the rest of the
    UMTS network (the core network) in the same
    manner as other UMTS radio access technologies
    (UTRAN, GERAN) using a new interface is termed
    Tight Coupling.

5
Tight Coupling Architecture of BRAN
6
Tight Coupling for WLAN-GPRS Integration
7
Tight Coupling Protocol Architecture
8
Loose Coupling for WLAN-GPRS Integration
9
WLAN Authentication Protocols for Loose Coupling
10
Tight Coupling using RNC Emulator
11
Performance Evaluation by Tsao and Lin
12
Architecture Comparisons
13
Architecture Comparisons
14
Architecture Comparisons
15
Handover Categories
  • Horizontal Handover (HO)
  • HO between base stations utilizing the same radio
    access technologies
  • Vertical Handover
  • HO between base stations that use different radio
    access technologies

16
Vertical HO Categories
17
Handover Algorithms
Traditional
High Complexity
Vertical HO based on prediction
18
Traditional Algorithms
Input Value V Received Signal Strength OR Signal
to Interference Ratio
If V from old BS lt Threshold Value then HO to
new BS
If V from new BS gt V from old BS then HO to new
BS
If V from new BS gt V from old BS Hysterisis h
then HO to new BS
If (V from old BS lt Threshold Value) AND (V from
new BS gt V from old BS Hysterisis h) then HO
to new BS
19
Traditional AlgorithmsDirection Biased
Handover To BS2
Candidate BS 1
Mobile Direction
Candidate BS 2
Signal Strength from BS1
Signal Strength from BS2
20
Traditional Algorithms
  • Distance Based
  • HO to the nearest BS
  • Velocity Adaptive
  • Employ a variable hysterisis and threshold based
    on mobiles velocity

21
High Complexity Algorithms
  • Dynamic Programming Based
  • Utilizing Patter Recognition
  • Neural Network Based
  • Fuzzy Logic Based

22
Vertical HO Algorithms
  • Hybrid Information System (HIS) based HO by Lott
    et al. 6
  • HO in mobile data networks by Pahlavan et al 7
  • Location Assisted HO by Leeuwen et al.8

23
HIS based HO
24
Pahlavan et al
25
Location Assisted HO
  • Best suited for fast vehicular users.
  • Assumptions
  • Measurement reports of the mobile are available
    in the current network (WLAN or UMTS).
  • and
  • Mobile periodically sends its GPS coordinates to
    the current network.

26
Location Assisted HO Algorithm
  • Predict what the mobile location will be when it
    sends the next measurement report.
  • Calculate the probability P, that at this
    location HO is required.
  • If P gt Threshold initiate HO

27
Our Contribution
28
Fast MIPv6 Handover (Predictive)
29
Fast MIPv6 Handover (Predictive)
MN detects new AP (link specific method)
Router Sol for Proxy Adv
Proxy Router Adv
Fast Binding Update
HI
Hack
Fast Binding Ack
Fast Binding Ack
Disconnect
Forward packets
Disconnect
Fast Neighbor Advertisement
Deliver packets
MN
Previous AR
New AR
30
Fast MIPv6 Handover (Reactive)
MN detects new AP (link specific method)
Router Sol for Proxy Adv
Proxy Router Adv
Disconnect
Connect
FNA FBU
Fast Binding Update
Fast Binding ack
Forward packets
Deliver packets
MN
Previous AR
New AR
31
3GPP-WLAN Interworking System1
32
FMIPv6 based Fast HO in UMTS-WLAN
  • GGSN Router that provides IP access to MN in
    UMTS
  • PDG Router that provides IP access to MN in WLAN
  • GGSN and PDG participate in fast HO

33
WLAN to UMTS HO
  • Network provides three link layer triggers to MN
  • Trigger one MN detects movement to new subnet
  • Trigger two MN starts pre-authentication
  • Trigger 3 MN initiates FBU and then HO

34
Movement Detection
Router Sol for Proxy Adv
Construct response containing Prefix, IP address
and L2 address
Proxy Router Adv
PDG
MN
35
Pre-authentication
  • Without using UMTS interface
  • Activate UMTS interface and use UMTS

36
Pre-authentication without UMTS interface
  • MN sends GPRS attach to SGSN through WLAN
    interface (via WAG)
  • SGSN authenticates by communicating with
    HLR/HSS/AuC
  • After authentication, state of MN at SGSN and MN
    PMM_IDLE
  • GPRS attach procedure is executed while UMTS
    interface is in receive mode
  • Need interface between WAG and SGSN
  • Protocol stack at MN and WAG needs to be modified

37
Pre-authentication using UMTS Interface
  • Initially, UMTS interface of MN in receive mode
  • MN transmits on UMTS interface
  • Perform GPRS attach
  • After successful GPRS attach, UMTS interface
    returns to receive mode

38
After pre-authentication
FBU
HI
HACK
Setup tunnel between Previous CoA and New CoA
Disconnect from WLAN and connect to UMTS
Fast Neighbor Advertisement
Deliver tunneled packets
BU to HA and CN
MN
PDG
GGSN
39
UMTS to WLAN HO
  • In addition to network provided triggers, MN has
    internal triggers

40
Movement Detection
Router Sol for Proxy Adv
Construct response containing Prefix, IP address
and L2 address
Proxy Router Adv
GGSN
MN
41
Pre-authentication
  • Without using WLAN (using only UMTS interface)
  • Activate WLAN interface and use WLAN

42
Pre-authentication without WLAN interface
  • MN performs EAP authentication and authorization
    procedure via UMTS
  • Change state of MN to WLAN-attach
  • Needs
  • EAP over WLAN is to run on UTRAN (modification
    needed)
  • Wg interface between WAG and 3GPP AAA server
    needs enhancement for exchanging EAP messages

43
Pre-authentication using WLAN Interface
  • Initially, WLAN interface of MN in receive mode
  • MN transmits on WLAN interface
  • Perform EAP authentication
  • Change WLAN to receive mode

44
After pre-authentication
FBU
HI
HACK
Setup tunnel between Previous CoA and New CoA
Disconnect from UMTS and connect to WLAN
Fast Neighbor Advertisement
Deliver tunneled packets
BU to HA and CN
MN
GGSN
PDG
45
HO Trigger to Aid FMIP6
  • Challenges
  • When to trigger?
  • Predicting the next Access Point?

46
When to Trigger?
47
Inputs to Prediction Algorithm
  • Signaling strength of neighboring APs.
  • Direction of the mobile.
  • Geographical terrain information Consists of
    terrain map with position of APs and possible
    directions for users while on this terrain.
  • Handover history with direction A list of (AP1,
    ?, AP2, Rating), where the Rating increases each
    time the mobile goes from AP1 to AP2 while moving
    in the direction ?.

48
Inputs to Prediction Algorithm
  • Path history A history of sequence of APs
    traversed by all mobiles.
  • Current Path The current sequence of APs
    traversed by the mobile.
  • Map of coverage areas of all neighboring APs.

49
Prediction AlgorithmStep I
50
Prediction AlgorithmStep II
51
Prediction AlgorithmStep III
52
Prediction AlgorithmStep IV
53
Prediction AlgorithmStep V
54
Prediction AlgorithmStep VI Choose Best AP
55
OPNET Modeler
  • Modeling using Finite State Machine
  • Programming Language C/C
  • Most networks already modeled

56
OPNET Modeling Domains
57
802.11 WLAN in OPNET
58
UMTS network in OPNET
59
Availabe features of Mobile IPv6 in OPNET
  • Supported Mobility Features
  • Route optimization
  • Mobile node (MN)home agent (HA) bi-directional
    tunneling
  • Available IPv6 extension headers
  • Mobility extension headers
  • Routing (type 2) and destination option extension
    headers

60
WLAN-3G intworking in OPNET
  • New nodes to build
  • Dual mode User Equipment (UE)
  • AAA Server
  • Wireless Access Gateway (WAG)
  • Packet Data Gateway (PDG)

61
WLAN-3G intworking in OPNET
  • New interfaces to add
  • Ww - Interface between the UE and the WLAN Access
    Network
  • Wn - Interface between the WLAN Access Network
    and the WAG.
  • Wp - Interface between the WAG and PDG.
  • Wm Interface between point is located between
    3GPP AAA Server and PDDG

62
Other additions to OPNET
  • Fast Mobile IPv6 extensions to the existing
    Mobile IPv6.
  • Node to execute the HO Algorithms.

63
Future Plans (current project year)
  • Opnet simulation for validation
  • Choose parameters for prediction based on
    extensive simulation
  • Measure prediction accuracy

64
Future Plans (after current project)
  • Can we generalize to HO between any RAT and any
    RAT?

65
REFERENCES
  • 3gPP TS23.234 v 6.4.0, 3GPP system to Wireless
    Local Area Network interworking system
    description 3GPP specifications.
  • 3gPP TS22.934 v 6.4.0, Feasibility study on 3GPP
    system to Wireless Local Area Network
    interworking. 3GPP specifications.
  • ETSI TR 101 957
  • A.K. Salkintzis, C. Fors, and R. Pazhyannur.
    WLAN-GPRS Integration for Next-Generation Mobile
    Data Networks, IEEE Wireless Communication, pp.
    112-124, October, 2002.
  • S. Taso and C. Lin, Design and Evaluation of
    UMTS-WLAN Interworking. Strategies, IEEE VTC
    2002 Fall, vol. 2, pp. 777-781, Sep. 2002
  • Lott et al. Interworking of WLAN and 3G
    systems. Communications, IEE Proceedings- Volume
    151,  Issue 5,  24 Oct. 2004 Page(s)507 513
  • K. Pahlavan et al., Handoff in Hybrid Mobile
    Data Networks IEEE Pers. Commun., Apr. 2000.
  • Leeuwen et al. Location assisted fast vertical
    handover for UMTS/WLAN overlay networks
    International conference on wired/wireless
    internet communications (WWIC) 2005.
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