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Integration of and Third-Generation Wireless Data Networks

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Presentation on theme: "Integration of and Third-Generation Wireless Data Networks"— Presentation transcript:

1 Integration of 802.11 and Third-Generation Wireless Data Networks
1.Introduction 2.Service scenario in Integrated 802.11&3G 3.Two architecture for & 3G integration 4.The IOTA gateway 5.IOTA client software 6.Experimental results 7.Conclusion Speaker :林家彬

2 1.Introduction 802.11 vs. 3G(roughly)
Data Rate Cover Areas 802. 11b 11M ~54Mbps Small areas, suitable for hot-spot application in hotels and airports.(1km^2) 3G 64kbps ~2Mbps Wider area of coverage that enables ubiquitous connectivity

3 1.1 Why is it the challenging task to integrate them?
Environment enterprise and home networks VS. global areas Capability 1.WLAN lack AAA and billing mechanisms 2.CDMA2000 or UMTS and their extension to QOS POLICY

4 1.2Research Contributions

5 2. Service Scenario in integrated 802
2. Service Scenario in integrated and 3G networks: problem statement Issues on John’s case: 1.Security association 2.Switching occurs when John is on sessions. 3.User profile obtained (AAA server) 4.Revenue sharing

6 3.Two architecture for 802.11 and 3G integration
A. Tightly-coupled Interworking -- The rationale: as another 3G access network. B. Loosely-coupled Interworking – It completely separates the data paths in and 3G networks

7 A. Tightly-coupled Interworking

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9 Disadvantages of tightly-coupled Interworking
1.Traffic engineering -Operator must own both the and 3G parts of the network. -setup of the entire network should be remodified because traffic load increased 25~100 times . 2.The configuration of the client devices -built-in USIM,R-UIM slots or external cards must bi plugged separately in to the subscriber devices .

10 B. Loosely-coupled Interworking

11 Advantages to the loosely-coupled integration
1.Independent deployment and traffic engineering of and 3G 2.Roaming agreements with many partners can result in widespread coverage. 3.No longer establish separate accounts 4.Allows WISP to provide its own hot-spot

12 4.The IOTA 802.11 Gateway 1. Integration of two access technologies
2. Allows the mobile node to access the network. 3. IOTA integrates RADIUS server, Mobile-IP, dynamic firewall, QOS module and accounting module. 4. IOTA building blocks are implemented as software modules ,and run on Linux.

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14 -It enables roaming agreements between 3G and 802.11
A.RADIUS server -It enables roaming agreements between 3G and -provides authentication services to the cloud. B. Mobile-IP agent -supports the roles of both home and foreign agents (HA,FA) C. Dynamic firewall -implemented using the Linux IP filter architecture. Obtained from the subscriber’s home AAA.

15 D.QOS module -share revenue E. Accounting module -750Kbps for Gold.
-250Kbps for Silver . -125 Kbps for Bronze. E. Accounting module -share revenue

16 F. Integrated web cache

17 G. Simple-IP operation -offers integrated authentication and billing. -Does not support seamless mobility, and requires manual user intervention to switch network access. H. Integration with UMTS -The current UMTS standards do not include support for the I ET F AAA and Mobile –IP protocol -It is expected that the definition of usage for AAA and Mobile-IP within UMTS will soon become standardized.

18 5.IOTA client software Support mobility across several kinds of physical interfaces. Seamless: -A user doesn’t see any changes in his connections. Selection of interface to use dependent on user preference: The GUI allows the user to configure, monitor, and control the state of the client.

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20 A. Interface Selection Algorithm
A novel interface-selection algorithm that uses the current signal strength and the priority of the interfaces to select the active interface. Goal—introduce a hysteresis effect and let the client stay with the current interface to prevent data loss.

21 6. Experimental result A. Performance of Mobile-IP agents
First-registration delay= AAA authentication + setting up packet filter+ creating tunnels Re-registration delay= AAA authentication Switching-registration delay=AAA authentication + creating tunnels

22 B. Performance of QOS mechanisms (two scenarios)
The first scenario illustrates restricting per-user traffic to 3.5Mbps

23 The second scenario :class-based with Gold ,Silver and Bronze.

24 7.Conclusion 3.Described client software .
1.Two architectural choices for the integration: tightly & loosely 2.Described in detail our realization of the loosely-coupled architecture in the form of the IOTA gateway 3.Described client software . 4.Sample experimental results .


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