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Transcript of CROSS LAYER ASSISTED SIP HANDOVER BASE ON WIMAX Adviser: Ho-Ting Wu Presenter: Chi-Fong Yang...
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CROSS LAYER ASSISTED SIP HANDOVER
BASE ON WIMAX
Adviser: Ho-Ting Wu
Presenter: Chi-Fong YangInstitute of Computer Science and Information
EngineeringNational Taipei University of Technology
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OUTLINE
Introduction Media Independent Handover Service Layer 2 Handover Schemes Layer 3 Handover Schemes Layer 3+ Handover Schemes QoS Supported in 802.16e Hidden Problem of SIP Handover on WiMAX Reference
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INTRODUCTION
Internet telephony uses SIP to establish and tear down multimedia sessions
Multimedia sessions are mostly based on RTP/RTCP
Layer 2 handover mobility solution for 802.16e MAC handover
Layer 3 handover mobility solution for acquiring a new IP address
in a newly connected network Layer 3+(Upper Layer) handover
mobility solution for real-time traffic.
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PROBLEMS DEFINITION
Layer 2 handover Link layer handover delay
Layer 3 handover Address allocation delay(Dynamic Host
Configuration Protocol ,DHCP) Router Advertisement delay
Layer 3+(Upper Layer) handover SIP re-INVITE process delay, consists of the
Round Trip Time (RTT) RTP packet transmission delay
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MEDIA INDEPENDENT HANDOVER SERVICE
The standard IEEE 802.21 The standard defines an abstraction layer,
providing Media Independent Handover(MIH) Functions
The goal of simplifying the management of handovers to and from Ethernet, GSM, GPRS, UMTS, WiFi, Bluetooth and 802.16 networks.
Provide a common interface for managing events and control messages exchanged between network devices
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IEEE 802.21 ARCHITECTURE
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PRIMARY SERVICES OF MIH MIES - Media Independent Event Service
The MIES provides support for both local and remote events notification to the upper layers of a mobile host
Common events provided through MIHF are: “Link UP”, “Link DOWN”, “Link Parameters Change”, “Link Going DOWN” and “L2 Handover Imminent”
MICS - Media Independent Command Service The MICS is used to gather information about the status
of connected links and to execute mobility and connectivity decisions
Typical examples of commands are: “MIH Poll” and “MIH Configure” to poll connected links asking for their status and to configure new links, respectively.
MIIS - Media Independent Information Service The MIIS extends further the services of IEEE 802.21 with
a framework and corresponding mechanisms supporting the discovery and distribution of network information within a geographic area
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HANDOVER MANAGER
Goalsservice continuitymobility policiesadaptation support at the
application levelcommon interface(Media
Independent Handover, MIH)Software ModuleRunning in user space
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HANDOVER MANAGER STRUCTURE
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MOBILITY MANAGER Link quality module
in charge of storing the information related to the available links and dispatching notifications about changes in link quality
Handover decision module in charge of performing handoff decisions
according to user’s preferences Power management module
in charge of switching on or off the interfaces according to user’s preferences
User policies module contains description of policies about security, cost, and
access networks priorities
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MOBILITY MANAGER STRUCTURE
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APPLICATION MOBILITY INTERFACE (AMI)
GoalsAMI receives the notifications
from the MM (Mobility Manager)AMI is in charge of performing
adaptation of application sessions and/or issuing configuration commands to the legacy application.
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LAYER 2 HANDOVER SCHEMES
The standard IEEE 802.16e-2005 Support SS(subscriber stations) moving at
vehicular speeds and thereby specifies a system for combined fixed and mobile broadband wireless access.
License-exempt frequencies below 11 GHz (primarily 5–6 GHz)
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SOFT HANDOVER AND HARD HANDOVER
The process in which an mobile Host(MH) migrates from the air-interface provided by one Base Station(BS) to the air-interface provided by another Base Station(BS)
break-before-make handover(hard handover) A handover where service with the target
BS(Base Station) starts after a disconnection of service with the previous serving BS
make-before-break handover(soft handover) A handover where service with the target BS
starts before disconnection of the service with the previous serving BS.
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MACRO DIVERSITY HANDOVER AND FAST BS SWITCHING 802.16e-2005 Page 250 Two optional HO(Handover) modes
Macro Diversity Handover(MDHO) Fast BS Switching(FBSS)
The MDHO or FBSS capability can be enabled or disabled in the REG-REQ/RSP message exchange
MDHO Decision A MDHO begins with a decision for an MH(Mobile Host) to
transmit to and receive from multiple BSs(Base Station) at the same time
A MDHO can start with either MOB_MSHO-REQ or MOB_BSHO-REQ messages
FBSS HO Decision A FBSS handover begins with a decision for an mobile host to
receive/transmit data from/to the Anchor BS A FBSS handover can be triggered by either MOB_MSHO-REQ
or MOB_BSHO-REQ messages
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MAC LAYER HANDOVER PROCEDURES Cell reselection
MH(Mobile Host) may use Neighbor BS(Base Station) information acquired from a decoded MOB_NBR-ADV message, or may make a request to schedule scanning intervals or sleep-intervals to scan, and possibly range
Handover decision and initiation A handover begins with a decision for an MH(Mobile Host) to
handover from a serving BS(Base Station) to a target BS(Base Station)
The decision may originate either at the MH(Mobile Host) or the serving BS(Base Station)
Decision consummates with a notification of MH(Mobile Host) intent to handover through MOB_MSHO-REQ or MOB_BSHO-REQ message
Synchronization to target BS MH(Mobile Host) shall synchronize to downlink transmissions of
Target BS(Base Station) and obtain downlink and uplink transmission parameters
Ranging Ranging is collection of processes by witch SS and BS maintain
the quality of RF commutation link between them
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MAC MANAGEMENT MESSAGES
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802.16e MAC handover messages Page 44, Table 14-MAC Management Messages
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CELL RESELECTION
Scanning procedure using the MOB_SCN-REQ and MOB_SCN-RSP
message for scanning intervals The mobile host indicates in this message the estimated
duration of time it requires for the scanning Association procedure
Association is an optional initial ranging procedure occurring during scanning interval with respect to one of the neighbor BSs(Base Stations)
There are three levels of association as follows Association Level 0(Scan/Association without coordination) Association Level 1(Association with coordination) Association Level 2(Network assisted association reporting) 802.16e-2005 Page 236
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EXAMPLE OF CELL SELECTION WITH RANGING
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HANDOVER DECISION AND INITIATION
A handover begins with a decision for an MH(Mobile Host) to handover from a serving BS(Base Station) to a target BS(Base Station)
The decision may originate either at the mobile host
proceed with a notification through either MOB_MSHO-REQ or MOB_BSHO-REQ messages
mobile host actual pursuit of handover to one of BSs(Base Stations) specified in MOB_BSHO-RSP is recommended
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EXAMPLE OF MOBILE STATION HANDOVER
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EXAMPLE OF BASE STATION HANDOVER
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LAYER 3 HANDOVER SCHEMES 802.16e establish IP connectivity
MH(Mobile Host) using IPv4 and not using mobile IP, they shall invoke DHCP mechanisms [IETF RFC 2131]
MH(Mobile Host) using IPv6, they shall either invoke DHCPv6 [IETF RFC 3315] or IPv6 Stateless Address Autoconfiguration [IETF RFC 2462]
Once the L3 handoff has occurred, the MH(Mobile Host) has to wait for some time in order to acquire a new IP address for that subnet via DHCP(Dynamic Host Configuration Protocol)
Mobile IP supported IP Mobility Support for IPv4(IETF RFC-3344) Fast Handoffs for Mobile IPv6(IETF RFC-4068)
predictive fast handover reactive fast handover
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DHCP IP ADDRESS ALLOCATION
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DEFINITION OF FAST HANDOFFS FOR MOBILE IPV6
Access Router(AR) The mobile host's default router
Previous Access Router(PAR) The mobile host's default router prior to its handover.
New Access Router(NAR) The mobile host's default router subsequent to its
handover Previous CoA(PCoA)
The mobile host's Care of Address valid on PAR's subnet New CoA(NCoA)
The mobile host's Care of Address valid on NAR's subnet
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MESSAGE FORMATS FOR FAST HANDOFFS FOR MOBILE IPV6
Router Solicitation for Proxy Advertisement(RtSolPr) A message from the mobile host to the PAR requesting information
for a potential handover Proxy Router Advertisement(PrRtAdv)
A message from the PAR to the mobile host that provides information about neighboring links facilitating expedited movement detection. The message also acts as a trigger for network- initiated handover.
Fast Binding Update(FBU) A message from the mobile host instructing its PAR to redirect its
traffic(toward NAR) Handover Initiate(HI)
A message from the PAR to the NAR regarding an mobile host’s handover
Handover Acknowledge(HAck) A message from the NAR to the PAR as a response to HI
Fast Binding Acknowledgment(FBAck) A message from the PAR in response to an FBU
Fast Neighbor Advertisement(FNA) A message from the mobile host to the NAR to announce
attachment, and to confirm the use of NCoA when the MN has not received an FBACK
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PREDICTIVE FAST HANDOVER
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LAYER 3+ HANDOVER SCHEMES
Mobile Host(MH) will have to inform of its IP address change the Correspondent Node(CN)
Mobile Host(MH) will have to update its SIP session with the Correspondent Node(CN)
Only at this point the L3 handoff can be considered done
SIP outbound proxy supported SIP proxy in the visited network, namely the SIP
outbound proxy SIP outbound proxy can also support fast handoff
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SIP HANDOVER WITH 802.16E MAC
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FAST SIP HANDOVER WITH 802.16E MAC(CASE 1)
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FAST SIP HANDOVER WITH 802.16E MAC(CASE 2)
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QOS SUPPORTED IN 802.16E Service flows
service flow is a unidirectional flow of packets that is provided a particular QoS
an SFID(Service Flows Identify) is assigned to each existing service flow, it is uniquely identified by a 32-bits
the relationship between SFID and transport CID, when present, is unique(An SFID shall never be associated with more than one transport CID)
Service classes mobile networks require common definitions of service
class names and associated AuthorizedQoSParamSets in order to facilitate operation across a distributed topology.
global service class names are employed as a baseline convention for communicating AuthorizedQoSParamSet or AdmittedQoSParamSet
Scheduling Services Each connection is associated with a single scheduling
type
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SERVICE CLASSES Std 802.16e–2005 page 211 Service class names are a rules-based naming system
whereby the global service class name itself contains referential QoS Parameter codes.
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Traffic/Burst Value
Max Latency Value
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SCHEDULING SERVICES
Std 802.16e-2005 page 183 Unsolicited Grant Service (UGS) Real-Time Polling Service (rtPS) Extended Real-Time Polling Service (ertPS) Non-Real-Time Polling Service (nrtPS) Best Effort ( BE)
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MANDATORY QOS PARAMETERS FOR UGS
Unsolicited Grant Service (UGS) support real-time uplink service flows that transport
fixed-size data packets on a periodic basis, such as T1/E1 and Voice over IP without silence suppression
The BS shall provide Data Grant Burst IEs to the SS at periodic intervals based upon the Maximum Sustained Traffic Rate of the service flow.
The mandatory QoS parameters maximum sustained traffic rate maximum latency tolerated jitter uplink grant scheduling type request/transmission policy
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MANDATORY QOS PARAMETERS FOR RTPS
Real-Time Polling Service (rtPS) support real-time uplink service flows that generate
transport variable size data packets on a periodic basis, such as MPEG video
allow the SS to specify the size of the desired grant(offers real-time,periodic, unicast request opportunities)
The mandatory QoS parameters Minimum reserved traffic rate maximum sustained traffic rate maximum latency uplink grant scheduling type request/transmission policy
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MANDATORY QOS PARAMETERS FOR ERTPS
Extended Real-Time Polling Service (ertPS) scheduling mechanism which builds on the
efficiency of both UGS and rtPS. BS shall provide unicast grants in an unsolicited
manner like in UGS, saving the latency of a bandwidth request
UGS allocations are fixed in size, ertPS allocations are dynamic
The mandatory QoS parameters Minimum reserved traffic rate maximum sustained traffic rate maximum latency request/transmission policy
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MANDATORY QOS PARAMETERS FOR RTPS
Non-Real-Time Polling Service (nrtPS) support non-real-time uplink service flows that
generate transport variable size data The BS shall provide timely unicast request
opportunities, The BS typically polls nrtPS CIDs on an interval on the order of one second or less
The mandatory QoS parameters Minimum reserved traffic rate maximum sustained traffic rate traffic priority uplink grant scheduling type request/transmission policy
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MANDATORY QOS PARAMETERS FOR BE
Best Effort ( BE) provide efficient service for best effort traffic in the
uplink the Request/Transmission Policy setting shall be
set such that the SS is allowed to use contention request opportunities
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HIDDEN PROBLEM OF SIP HANDOVER ON WIMAX
Scheduling type of 802.16 SIP is the traffic of BE(Best Erroft) RTP is the traffic of UGS/rtPS/ertPS(Unsolicited Grant
Service / Real-Time Polling Service /Extended Real-Time Polling Service )
The bandwidth request of RTP is not reserved in a duration of SIP session of call setup(re-INVITE), even the SIP session of call setup is successfully
Actually the time of RTP transmission has long delay
For real time applications is unacceptable
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EXAMPLE OF HIDDEN PROBLEM
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BANDWIDTH OF RTP RESERVATION
SIP outbound proxy use re-INVITE to configure the RTP transmission
SIP outbound proxy usually has access to the Session Description Protocol(SDP) information containing the mobile host media address and port
SIP outbound proxy use Application Mobility Interface(AMI) to negotiate with MAC
SIP outbound proxy send the RTP bandwidth request(release) through AMI to MAC
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BANDWIDTH OF RTP RESERVATION FLOW
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BANDWIDTH OF RTP RELEASE FLOW
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CONCLUSION
Propose predictive handover with SIP to reduces the handover latency
Provide SIP proxy to fast configure the RTP transmission
Challenge Bandwidth reservation for RTP transmission Admission Control(AC) and Bandwidth
Allocation(BA) for mobility network
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REFERENCE [1].Jared Stein,Survey of IEEE802.21 Media
Independent Handover Services ,
http://www.cs.wustl.edu/~jain/cse574-06/ftp/handover/index.html [2].Filippo Cacace, Luca Vollero, Managing Mobility
and Adaptation in Upcoming 802.21Enabled Devices [3].IEEE Standard for Local and metropolitan area
networks Part 16:Air Interface for Fixed Broadband Wireless Access Systems, IEEE Std 802.16-2004, 2004.
[4].IEEE Standard for Local and metropolitan area networks Part 16:Air Interface for Fixed and Mobile Broadband Wireless Access Systems Amendment 2: Physical and Medium Access Control Layers for Combined Fixed and Mobile Operation in Licensed Bands IEEE Std 802.16e-2005
[5]. Wooseong Kim, Kyounghee Lee, Chansu Yu, Ben Lee, Link Layer Assisted Mobility Support Using SIP for Real-time Multimedia Communications
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REFERENCE
[6]. R.Koodli,Ed,Fast Handoffs for Mobile IPv6,IETF RFC-4068,July 2005
[7]. C.Perkins,Ed,IP Mobility Support for IPv4,IETF RFC-3344,August 2002。
[8]. Session Initiation Protocol(SIP),IETF RFC-3344, June 2002
[9]. Henning Schulzrinne, Computer Science Department, Columbia University, New
York, NY 10027,Optimized Fast-Handoff Schemes for Application Layer Mobility Management
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ANNEX A(1) – LINK EVENTS
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ANNEX A(2) – MIH LINK EVENTS
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ANNEX A(3) – MIH AND LINK COMMANDS
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ANNEX A(4) – INFORMATION ELEMENT TYPE
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ANNEX B(1) –TRAFFIC RATE AND BURST VALUES
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ANNEX B(2) –MAXIMUM LATENCY VALUES
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