WiMAX-EVDO interworking using mobile IP
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Transcript of WiMAX-EVDO interworking using mobile IP
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WiMAX-EVDO interworking using mobile IP
Peretz Feder, Ramana Isukapalli, and Semyon Mizikovsky, Alcatel-Lucent
IEEE Communications Magazine, vol. 47, no. 6, pp. 122-131, 2009.
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Outline• Introduction• Network Architecture– WiMAX Network– EV-DO Network
• Network Architecture for Interworking• Call Flows– Handoffs Using CMIP in WiMAX– Handoffs Using PMIP in WiMAX
• Conclusions
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Introduction • WiMAX
– a fourth-generation wireless-access technology, – has made significant progress both in the standard forums and with
wireless network carriers.
– it is important to interwork with existing third-generation access networks before it is uniquely and ubiquitously deployed.
• This article addresses the full-mobility approach and presents a solution using mobile IP (MIP)– a dual-mode device with two (WiMAX and EVDO) separate radios– ideally suited for service providers who use a phased approach when
evolving from third-generation to fourth-generation networks.
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Network Architecture – WiMAX• Based on the IEEE 802.16e air interface– orthogonal frequency-division multiple access (OFDMA)
• The Network Working Group (NWG) of the WiMAX Forum specifies the end-to-end system architecture, detailed protocols, and procedures beyond the air-interface standards
[1] WiMAX Forum, “Network Architecture Stage 2: Architecture Tenets, Reference Model and Reference Points.”[2] WiMAX Forum. “Network Architecture Stage 3: Detailed Protocols and Procedures.”[7] IEEE Std 802.16e-2005, “IEEE Standard for Local and Metropolitan Area Networks Part 16: Air Interface for Fixed and Mobile Broadband Wireless Access Systems,” Dec. 2005.
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release 1.0 v. 3
connectivity-services network (CSN)access-services network (ASN)
Security anchoring, network-access-server (NAS) functionality, traffic accounting, and a mobility proxy client
a global mobility anchor
can potentially connect over the R6 interface to any ASN-GW
ASN-GW relocation intra-ASN-GW, inter-ASN-GW, and anchored-CSN mobility
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Network Architecture – EVDOa global mobility anchor
Base station controller and packet control function (BSC/PCF):Control and management for one or more BTSs and relays packets to the appropriate packet data-serving node (PDSN)
accepts MIP registration
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• Evolution-Data Optimized (EVDO)– requires a point-to-point protocol (PPP) layer between the MS and the packet data-
serving node (PDSN)– MS always performs MIP registration following a PPP negotiation
• makes the link set-up time on EVDO a little longer than in WiMAX
• unicast access terminal identifier (UATI) session. – The lifetime of a UATI session can be longer than a PPP/MIP session,
• but a PPP session can exist only if the MS already has a UATI session. – the air-interface session set up (including negotiation of session parameters and protocols) takes a few
seconds
• To reduce the hand-off time, pre-establishing an air-interface session and leaving it idle (without a PPP/MIP session) while the MS is active in a WiMAX network is desirable.
• But consumes more battery power[3] 3GPP2 A-S0008-A, “Interoperability Specification (IOS) for High Rate Packet 1 Data (HRPD) Radio Access Network Interfaces with 2 Session Control in the Access Network.” [4] 3GPP2 X.S0011-D, “CDMA 2000 Wireless IP Network Standard.”
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Network Architecture for Interworking
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• Inter-technology handoffs– break before make– make before break– make-before-break-with-simultaneous-bindings
• accounts for the best service continuity with a minimum packet loss during handoffs
• additional algorithms (e.g., duplicate packets coming along the two links) required
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Network Architecture for Interworking - Interworking models
• tightly coupled model– The ASN-GW of WiMAX connect to the IP core network through PDSN– the EVDO core network treats the WiMAX network as an extension of an
access network. – The MS implement an EVDO protocol stack on top of the WiMAX– no practical standards
• the complexity of implementing this model must be evaluated carefully vis-à-vis the benefits
• loosely coupled mode– each network follows its unique network entry procedures, authentication
methods, intra-technology mobility, paging, and so on– the WiMAX and EVDO networks are connected to a common IP core
network, • enabling common billing for both the networks and access technology specific
authentication
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• The data paths are separate for WiMAX and EVDO access networks. – useful when the same provider owns the same core network and can serve
disparate access networks • an essential feature during transition from third-generation to fourth-generation
wireless networks.
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Network Architecture for Interworking - Client MIP and PMIP models
• Client MIP (CMIP) model– the MS integrates an additional MIP stack
• PMIP model– the network (ASN-GW), on behalf of the MS, sends a MIP
registration request to the HA
• WiMAX networks support both CMIP and PMIP, whereas EVDO supports only CMIP.
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Network Architecture for Interworking - Functionality of Various Components
• HA– enforces the use of the same Network Access Identifier (NAI) on
both the WiMAX and EVDO networks– support simultaneous bindings for the WiMAX and EVDO
seamless handoff• maintains both the old and the new bindings through both technologies
for a brief period of time– supports session revocation and releases the resources
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• MS– supports dual radio (two separate MAC and physical layers)
• possibly with simultaneous bindings during handoffs– uses the same NAI in both WiMAX and EVDO– uses CMIP procedures compliant with IS-835D [3, 4] in EVDO
networks and MIP procedures compliant with WiMAX [2]– accessible with the same IP address (HoA) to any correspondent
node– a connection manager (CM) function monitors the signal
strength in the other network for possible handoffs• Trigger handoffs based on configuration parameters
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• AAA– authenticates WiMAX terminals as specified in [1, 2] and EVDO
terminals as specified in [3, 4]– stores the assigned HA address and the HoA corresponding to a
NAI• returns the same HA address for an MS when there are subsequent
binding requests for the HA
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Network Architecture for Interworking - Network Protocol Stack
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Network Architecture for Interworking - QoS Issues
• EVDO supports a device-initiated QoS model,– the QoS classifier is obtained mostly from the MS
• WiMAX initial release supports a network-initiated QoS model– QoS classification information must come from the network
• Handoffs – WiMAX EVDO
• the MS in an EVDO network can request the same assigned QoS. – EVDO WiMAX
• require further algorithms not presently developed.
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Call Flows
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WiMAX ↓ EVDO
using CMIP in WiMAX
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WiMAX ↓ EVDO
using PMIP in WiMAX
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Conclusions • We discussed the need for interworking and presented an
interworking model between WiMAX and EVDO networks using MIP protocols – provide session continuity
• We discussed the loosely coupled network architecture with separate data paths between WiMAX and EVDO networks.
• We presented detailed call flows for both CMIP and PMIP implementations in WiMAX – and discussed the various steps of the call flows.
• the interworking model presented here can be easily extended to other access networks – WiFi, the universal mobile telecommunications system (UMTS), long-term
evolution (LTE), and so on.
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wide area network
MIP - Registration (“foreign agent care-of address” mode)
Foreign Agent
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1) Agent Discovery: mobile node contacts foreign agent
on entering visited network
2) Obtain care-of address (CoA):The termination point of a tunnel toward a mobile node
mobile node
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foreign agent register its address (e.g. 140.234.1.1) to the home agent of the mobile node
Home Agent
visited networkhome
network
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wide area network
MIP - Communication (“foreign agent care-of address” mode)
correspondent node
Foreign Agent
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correspondent node addresses packets using the home address of the mobile node
Home Agent
mobile node
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home agent intercepts packets, tunnels and forwards to the foreign agent 3
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mobile node replies directly to the correspondent node
visited networkhome
network
foreign agent receives packets, detunnels and forwards to the mobile node