lecture 7: cellular network - wireless and mobile...
TRANSCRIPT
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Lecture 7: Cellular NetworkLecture 7: Cellular Network
Hung-Yu WeiNational Taiwan University
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AnnouncementAnnouncement• 11/30 midterm• 11/23, 11/16 project proposal presentation
– 2~3 people– 12 minutes
• 11/16, 11/9– Transport layer– Case study: multimedia over wireless
• Email me your group members by next Friday– [email protected]
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Cellular BasicsCellular Basics
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Terminologies: BS & MSTerminologies: BS & MS• Base station (BS)
– Access point (AP)• Mobile station (MS)
– SS (Subscriber station)– MT (mobile terminal)– MN (mobile node)
• Downlink– Forward link– BS MS
• Uplink– Reverse link– MS BS
downlink
uplink
BS MS
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Terminologies: cell and sectorTerminologies: cell and sector• Cell
– Coverage area of a BS• Sector
– Partial area of a cell that is served by a directional antenna
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Terminology: handoffTerminology: handoff• Handoff
– MS changes serving BS due to movement or radio channel variation
– handover
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1G and 2G cellular systems1G and 2G cellular systems• 1st generation
– AMPS• Analog• Analog FM modulation• FDMA
• 2nd generation– DAMPS(IS-54)
• U.S.• Digital PSK modulation• FDM/TDMA
– GSM• Europe, Asia• Digital PSK modulation• FDM/TDMA
– IS-95 CDMA• U.S.• Digital PSK modulation• FDM/CDMA
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Basic Cellular ConceptBasic Cellular Concept• “Cell”
– Typically, cells are hexagonal– In practice, it depends on available cell sites
and radio propagation conditions• Spectrum reuse
– Reuse the same EM spectrum in other geographical location
– Frequency reuse factor
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Frequency ReuseFrequency Reuse• Cluster
– A group of cells• Frequency reuse factor
– (Total # of channels in a cluster) / (Total # of channels in a cell)
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TDMA/FDMA Spatial ReuseTDMA/FDMA Spatial Reuse
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A frequency reuse exampleA frequency reuse example• Example
– Frequency reuse factor = 7– Cluster size =7
• Question– What are other possible
frequency reuse patterns?
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ClusterCluster• The hexagon is an ideal choice for
macrocellular coverage areas, because it closely approximates a circle and offers a wide range of tessellating reuse cluster sizes.
• A cluster of size N can be constructed if, – N = i2 + ij + j2. – i,j are positive integer
• Allowable cluster sizes are– N = 1,3,4,7,9,12,…
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Determine frequency reuse patternDetermine frequency reuse pattern• Co-channel interference [CCI]
– one of the major factors that limits cellular system capacity
– CCI arises when the same carrier frequency is used in different cells.
• Determine frequency reuse factor– Propagation model– Sensitivity to CCI
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Reuse distanceReuse distance• Notations
– D :Reuse distance• Distance to cell using the same frequency
– r : Cell radius– N : Frequency reuse factor
• Relationship between D and r– D/r=(3N)^0.5– N = i2 + ij + j2
• Proof?
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D
L * iL * j
r
In this case: j=2, i=1
Compute D based on “law of cosine”NijjirD
ijjiLDjiLjLiLD
jLiLjLiLD
3)(3/
)()5.0(2
)3/2cos())((2)()(
22
2222
222222
222
=++=
++=
−⋅⋅⋅−⋅+⋅=
⋅⋅−⋅+⋅= π
rL 3=
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Cell splittingCell splitting• Smaller cells have greater system capacity
– Better spatial reuse• As traffic load grows, larger cells could
split into smaller cells
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SectorsSectors• Use directional antenna reduces CCI
– Why? Think about it!• 1 base station could apply several
directional antennas to form several sectors
• 3-sector cell
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Forward link and reverse linkForward link and reverse link• Forward link
– Also called downlink– BS MS
• Reverse link– Also called uplink– MS BS
• How forward link and reverse link are separated?– FDD (more often)
• Frequency Division Duplex– TDD
• Time Division Duplex• Why is it more difficult to engineer a TDD system?
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More about cellularMore about cellular
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Cell size & FRFCell size & FRF• Cell size should be proportional to
1/(subscriber density)• Co-channel interference is proportional to
– 1/D– r– 1/N^0.5
– Path-loss model• Total system capacity is proportional to
– 1/N• N : Frequency reuse factor
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Example: N=7Example: N=7• Frequency reuse factor N=7
– N = i2 + ij + j2
– (i,j)=(1,2) or (2,1)• Other commonly used patterns
– N=3• (1,1)
– N=4• (2,0); (0,2)
• N=1 is possible– CDMA
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Compute total system capacityCompute total system capacity• Example 11-1
– Total coverage area = 100 mile2 = 262.4 km2
– Total 1000 duplex channels– Cell radius = 1km – N=4 or N=7
• What’s the total system capacity for N=4 and N=7?
r
22 6.22
33 rrA ==
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Compute total system capacityCompute total system capacity• # of cells = 262.4/2.6=100 cells• # of usable duplex channels/cell
– S=(# of channels)/(reuse factor)– S4=1000/4=250– S7=1000/7=142
• Total system capacity (# of users could be accommodated simultaneously)– C=S*(# of cells)– C4=250*100=25000– C7=142*100=14200
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Evolving deploymentEvolving deployment
Early stage Intermediate stage Late stage
•Multiple stages of deployment
•Deployment evolves with subscriber growth
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Practical deployment issuesPractical deployment issues• Location to setup antenna
– Antenna towers are expensive– Local people do not like BSs
• Antenna/BS does not look like antenna/BS
• Antenna– Omni-directional– Directional antenna
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Wireless QoSWireless QoS• Quality of Service (QoS)
– Achieving satisfactory wireless QoS is an important design objective
• Quality measures– Channel availability (wireless network is available when users need
it)• Blocking probability• Dropping probability
– Coverage: probability of receiving adequate signal level at different locations
– Transmission quality: fidelity/quality of received signals• BER• FER
• Application-dependent– Voice– Data– Multimedia
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Wireless QoSWireless QoS• Admission control
– Blocking– Poor reception quality
• Co-channels– Frequency reuse factor– Cell planning
• Frequency planning
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WorstWorst--Case CCI on the Forward ChannelCase CCI on the Forward Channel• Co channel interference [CCI] is one of the prime
limitations on system capacity. We use the propagation model to calculate CCI.
• There are six first-tier, co-channel BSs, two each at (approximate) distances of D-R, D, and R+D and the worst case (average) Carrier-to-(Co-Channel) Interference [CCI] is
R= cell radius
)()(2
1βββ
β
−−−
−
+++−=Λ
RDDRDR
Worst case CCIon the forward channel
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OverlayOverlay• Dual-mode or dual-frequency phones
– Overlay different wireless access technologies• Different technologies• Same technology operating in different bands
• Increase system capacity– Reduce blocking
• Example:– GSM 900/1800– TDMA+CDMA
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Overlaid cellsOverlaid cells
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Basic Cellular Network ArchitectureBasic Cellular Network Architecture
• Home/ Gateway MSC: receives incoming calls for mobiles– if using a home MSC, it is permanently assigned
• Serving MSC: is assigned based on location of MS• HLR: permanent repository for service profiles, pointer to VLR• VLR: temporary repository for profile information and pointer to
serving MSC
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HandoffHandoff• Handoff threshold: typically, -90~-100 dBm
(1~10uW)• Need to prevent from “ping-pong” effect
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Handoff ManagementHandoff Management• the new BS before the link between the
old BS and the MS becomes unusable• There are three primary issues that need
to be considered for handoff management– Handoff detection– Channel assignment– Radio link transfer
Old Base Station
New Base Station
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Cell Crossing Rate: Fluid Flow Mobility Model Cell Crossing Rate: Fluid Flow Mobility Model [for Handoffs][for Handoffs]
• Model Assumptions– Mobile nodes move at constant rate v– Mobile nodes move in random direction, which is uniformly-
distributed over [0,2π]– Mobile nodes are uniformly-distributed in the cells.
• The cell crossing rate is given by
2
: cell boundary cross rate (1/ sec)
: active mobile node density (1/ ): mobile velocity ( / sec): cell perimeter ( )
C
C
vlr
r
mv ml m
ρπ
ρ
=
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Handoff ModesHandoff Modes• Handoff algorithms can be characterized into forward and backward types
– Backward handoff• Initiate the handoff process through the serving BS• Access to the new channel is not made until the control entity of the new
channel has confirmed the allocation of resources. • Advantage : signaling information is through an existing radio link
– The establishment of a new signaling channel is not required during the initial stages of the handoff process.
• Disadvantage: may fail in conditions where the link quality with the serving BS is rapidly deteriorating.
• Used in GSM and most TDMA systems.– Forward handoff
• initiate the handoff process via a channel to the target BS without relying on the “old” channel during the initial phase of the handoff.
• Advantage is a faster handoff• Disadvantage is a reduction in handoff reliability • Used in DECT
• Handoffs can also be either hard or soft handoffs
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Link Quality MonitoringLink Quality Monitoring• To initiate a handoff, two issues must be considered
– Who initiates the handoff process?– How is the need for the handoff detected?
• Various parameters for link quality evaluation– Bit error rate [BER]– Carrier-to-interference ratio [CIR]– Distance– Traffic load– Signal strength
• Temporal averaging of the received carrier plus interference [C+I] – Advantages
• Simplicity• Good performance in macrocellular systems.
– Disadvantages• Efficient systems are interference [CCI] limited(a good C+I does n
necessarily imply a large C/I)
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3 Types of Handoff Algorithms3 Types of Handoff Algorithms• Network Controlled Handoff [NCHO]:
– Link quality is only monitored by the serving BS and the surrounding BSs. – The handoff decision is made under the centralized control of a mobile
telephone switch• Mobile Assisted Handoff [MAHO]: Network Control with MS
assisting – Both the serving BS and MS measure link quality– Link quality measurements of the alternate BSs are only obtained by the
MSs– The MS periodically relays the link quality measurements back to the serving
BS• Mobile Controlled Handoff [MCHO]:
– link quality is measured by both BS and the MS.– Like MAHO, the measurements of link quality for alternate BSs are done at
the MS, and both inter and intracell handoffs are supported– Unlike MAHO, the link measurements at the serving BS are relayed to the
MS, and the handoff decision is made by the MS.
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Link Quality Measurement and Handoff InitiationLink Quality Measurement and Handoff Initiation
• When a new call arrives, the MS must be connected to a suitable BS. • Also, when a MS traverses a cell boundary intercell handoff
– Sometimes an intracell handoff is desirable when the link with the serving BSs is affected by excessive interference
• The handoff process consists of two stages– Link quality evaluation and handoff initiation– Allocation of radio and network resources
• Cellular systems with smaller cell sizes require faster and morereliable link quality evaluation and handoff algorithms – The handoff rate increases with only the square root of the call density in
macrocells, but linearly with the call density in microcells.– Since the MS has a certain probability of handoff failure, handoff
algorithms must become more robust and reliable as the cell size decreases
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Handoff FailuresHandoff Failures• In the link transfer procedure, there are several reasons why
handoff failures occur:– No channel is available on the selected BS– Handoff is denied by the network for reasons such as lack of
resources [e.g., the MS has exceeded some limit on the number ofhandoffs that my be attempted in a period of time].
– It takes the network too long to set up the handoff after it hasbeen initiated.
– The target links fails in some way during the execution of the handoff
• The effect of network response time on the call completion probability can be significant; especially in the following cases – small offered load– mobile residence time distribution at a cell has a small variance
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Channel AssignmentChannel Assignment• Goals:
– Service quality– Implementation complexity of the channel assignment algorithm– Number of database lookups– Spectrum utilization
• Handoff requests and initial access attempts compete for radio resources. – At a busy BS, call attempts that fail because there are no available
channels are called blocked calls.– Handoff requests for existing calls that must turned down because
there are no available channels are called forced terminations. – In general, forced terminations are less desirable than blocked call
• Successful handoff access is intimately tied to the radio technology of the channel assignment algorithm – The nonprioritized scheme– The reserved channel scheme– The queueing priority scheme– The subrating scheme
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Handoff ProcedureHandoff Procedure
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MSC VLR
HLR
BS
MS
BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
![Page 43: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/43.jpg)
43
MSC VLR
HLR
BS
MS
BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
![Page 44: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/44.jpg)
44
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 45: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/45.jpg)
45
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 46: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/46.jpg)
46
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 47: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/47.jpg)
47
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 48: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/48.jpg)
48
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 49: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/49.jpg)
49
MSC VLR
HLR
BS
MS
BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
![Page 50: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/50.jpg)
50
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 51: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/51.jpg)
51
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 52: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/52.jpg)
52
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 53: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/53.jpg)
53
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 54: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/54.jpg)
54
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 55: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/55.jpg)
55
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 56: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/56.jpg)
56
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 57: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/57.jpg)
57
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 58: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/58.jpg)
58
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 59: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/59.jpg)
59
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 60: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/60.jpg)
60
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 61: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/61.jpg)
61
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 62: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/62.jpg)
62
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 63: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/63.jpg)
63
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 64: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/64.jpg)
64
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 65: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/65.jpg)
65
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 66: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/66.jpg)
66
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 67: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/67.jpg)
67
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 68: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/68.jpg)
68
MSC VLR
HLR
BS BS BS
VLR MSC
BS
BS BS
ss7
MSC
BS
MS
![Page 69: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/69.jpg)
Call DeliveryCall Delivery
![Page 70: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/70.jpg)
70
Call DeliveryCall Delivery• The other user call the mobile
– Find out where is the mobile– Establish the call
![Page 71: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/71.jpg)
71
VLR HLRBSMS MSC
MSCIAM(ISUP)
gateway/home
Send Routing Info
Provide Roaming #
ACK(MSRN)ACK(MSRN)
SS7 Call SetupIAM
Paging RequestPage
Page rspPage rsp
ASSIGNMENTChannelAssignment
![Page 72: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/72.jpg)
Registration (Network)Registration (Network)
![Page 73: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/73.jpg)
73
RegistrationRegistration• Mobile register from the new location
– Mobile moves to a new place– Register the new location
• Update new foreign network• Update home network• Update (remove old info) old foreign network
![Page 74: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/74.jpg)
74
VLR HLR VLR MSC BSMSC MS
Loc Update Rqst
MAP_Update_Loc_Area
MAP_Update_Loc_Area_Acc
MAP_Cancel
MAP_Cancel_Acc
New MSC/BS networkMS Home NetworkOld MSC/BS
![Page 75: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/75.jpg)
GSM Registration (Air GSM Registration (Air Interface)Interface)
![Page 76: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/76.jpg)
76
MS BMIGet SDCCH
Channel Request
Immediate Assignment
SABM(LOC UPD REQ)
US(LOC UPD REQ)
Authentication Request(RAND)
AUTHENTICATION RES(SRES)
Cipher Mode
Cipher Mode Complete
LOC UPD ACC(TMSI)
TMSI REAL Complete
Channel Release
RR Connectionestablished
RR connectionreleased
![Page 77: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/77.jpg)
GSM Location GSM Location Area(LA)RegistrationArea(LA)Registration
![Page 78: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/78.jpg)
78
VLR HLR VLR MSC BSMSC MS
New MSC/BS networkMS Home NetworkOld MSC/BS
RegistrationLoc Update
Update_location_AreaSend_Auth_Info
AckAuthenticationAck
Set Cipher ModeAck
Update_Location_AreaCancel_Location
AckInsert Subscriber Data
AckUpdate_Location_Area_Accept
Registration Accept
![Page 79: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/79.jpg)
GSM Call TerminationGSM Call Termination(call termination = call delivery)(call termination = call delivery)
![Page 80: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/80.jpg)
80
Call terminationCall termination• 2 sets of procedure
– Different initiators• BS pages MS• MS request channel first
![Page 81: Lecture 7: Cellular Network - Wireless and Mobile ...wmnlab.ee.ntu.edu.tw/951cross/Lec7_Cellular_Network.pdf · – MT (mobile terminal) – MN (mobile node) ... Determine frequency](https://reader034.vdocument.in/reader034/viewer/2022042801/5a8634b57f8b9a87368d6b42/html5/thumbnails/81.jpg)
81
MS BMI
Get SDCCH
RR Connectionestablished
Page Request(TMSI)
Channel Request
Immediate Assignment
SABM(Page Response)
UA(Page Response)
Authentication and Ciphering
SETUPCall Confirmed
Alert
Assignment CMD
Assignment CompleteConnect
Conn Ack