GSM Basics - Key Technologies.ppt
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Transcript of GSM Basics - Key Technologies.ppt
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Global System for MobileCommunication
Basic Principle
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Introduction to GSMGSM OverviewMobile communication market of IndiaGSM System ArchitectureGSM Frequencies AllocationMultiple-Access TechniquesGSM Channels structureGSM Key technologiesGSM Network FunctionsGSM Numbering PlanGSM Frequency Reuse TechnologyGSM development
Contents
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• Mobile communication existed half a century ago, but it was in the 1980’s that it was really developed 。The main goal of mobile communication is to realize communication among any objects at any time, and in any place.
Land cellular mobile communication
system (PLMN) has gone through 3 stages:
1. First Generation --Analog Mobile Telephone System
2.Second Generation---Digital Mobile Communication System
3. Third Generation---IMT-2000
Evolution of Mobile Communication
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AMPS ( America )NMT ( North Europe )
TACS ( U.K. )
Analog
Digital
D - AMPS PDCGSM
CDMA
Evolution
Development of Mobile Communication
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• Analog cellular mobile communication system has following fatal weaknesses:
A) There is no public air interface between various systems;
B) It can not adapt itself to the digitization of fixed networks, and digital bearer services are hard to develop;
C) It has a low frequency availability, thus unable to meet large capacity requirements;
D) It has a low degree of safety, thus easy to be eavesdropped, and easy to be “copied” with “false” handsets.
First Generation-Analog Mobile Telephone System
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Development of Mobile Communication
Disadvantages of First Generation Analog Mobile Communication System
• Not standard interface
• No Mobile Data Services
• Less efficiency of the Freq
• No roaming automatically
• Lower security
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Second Generation - Digital Mobile
Communication System
• Due to the various defects of analog systems such as TACS, mobile telephone systems were developed in the 1990’s embodied by digital transmission, TDMA and narrow-band CDMA, which are called the second generation mobile telephone system.
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Types of TDMA Systems• The comparatively mature and most typical system in the
TDMA series are: the pan-European GSM, American D-AMPS and the Japanese PDC.
1 ) D–AMPS was formally launched into commerical application in 1993 after the American Electronic Industry Association (EIA) completed its technical standardization in 1989
• 2 ) The Japanese JDC (now renamed as PDC) had its technical standards completed in 1990. It was put into service in 1993, but is restricted to Japan only.
• 3 ) The special mobile communication group (SMG) of CEPT laid down the phase 1 standard of GSM in 1988, with the working frequency band around 900MHz. It was launched into commercial use in 1990.
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GSM System Requirements
Commercial Standard of GSM:Great than or equal to 2 Operators in a county to get best
coexist and competition.
Must be an open system for equipment providers to get best
coexist and competition.
Has no effect to PSTN.
System Standard of GSM : The system must be Pan-European.
The system must have and keep good Voice Quality.
The system must have a high frequency efficiency.
The system must have enough capacity.
The system must be compatible with other communication standard.
The system must have good security.
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Advantages of GSM Systems
The advantages of GSM standard system are as
follows: Can bear more inter-cell interference.
Can get better average voice quality than Analog Cellular System.
Supports data transmission.
User information security can be guaranteed.
Compatible with ISDN and can support new service.
International roaming is possible in all GSM deploying countries.
Low investment and usage price
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GSM Services
GSM Services
Bearing Services
Telecom Services
Basic bearing services
Complementary services
Complementary services
Short message
Voice
Data
most important
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Overview of Mobile Communication Market of India
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Brief History of India telecom Market
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India Telecom Circles
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Mobile Subscriber’s Growth
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Indian telecom market share
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GSM System Architecture
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GSM System Architecture
O&M
BSC
BTS900
BTS1800
BTS1900
BTS900/1800/1900
A Interface
MSC/VLR
SMU/TCU
Ater Interface
Abis Interface
Um Interface
OMC
PCM/DDN/X.25 O&M
PSTN/PLMN
PSPDN/ISDN
HLR/AUC
EIR
SMC
Gb Interface
PCU
SGSN
NMC
IP Network
Q3 Interface
IP IP NetworkNetwork
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• BSS: Base Station Subsystem
• BSC: Base Station Controller
• BTS: Base Transceiver Station
• MSC:Mobile Switching Center
• OMC:Operation and Maintenance Center
• AUC:Authentication Center
• EIR:Equipment Identification Register
Elements of GSM System
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• HLR:Home Location Register
• VLR:Visitor Location Register
• MS:Mobile Station
• ISDN:Integrated Services Digital Network
• PSTN:Public Switched Telephone Network
• PSPDN:Packet Switched Public DataNetwork
• PLMN Public Land Mobile Network
Elements of GSM System
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GSM Subsystem
GSM includes 3 subsystems
Abis
Open interface
Open interface
Air A
O & M
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• Mobile stations are not fixed to one subscriber. On any mobile station in the system, we can identify the subscriber with the SIM card (Subscriber Identity Module). The personal identification number (PIN) can be used to prevent unauthorized use of the SIM card.
Mobile Station
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• Each mobile station has its own identification number, i.e., the international mobile equipment identifier (IMEI). IMEI mainly consists of the type permission code and the related manufacturer product number.
• Each mobile subscriber has its own international mobile subscriber identifier (IMSI), which is stored in the SIM card and in HLR.
Mobile Station
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BSS System
BSS including: BSC
BTS
TC
BSS functions:
Radio resources control and
managements
Speech code switching
Signal and data processing of
Air interface
BTS
TC
BSC
BSC
TCBTS
BTS
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It is the radio tranmission part of the base station system. Controlled by BSC, it serves cell radio transceiver equipment, handles conversion between BSC and radio channels, and performs radio transmission between BTS and MS via air interfaces as well as related control functions.
Base Transceiver Station (BTS)
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As the control part of BSS, BSC performs the switching function in BSS.
- BSC may be connected with multiple BTSs at one end, and MSC and OMC at the other end. BSC mainly manages radio network and radio resources, supervises and manages radio base station, controls the establishment, connection and disconnection of radio links in MS and BTS and the location updating, hand-over and paging of mobile station, provides functions such as voice encoding, transcoding, rate adaptation, as well as the operation and maintenance functions of BSS.
Base Station Controller(BSC)
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TC mainly completes voice conversion between the 16kbit/s RPE-LTP (regular pulse excited long-term prediction) codes and 64kbit/s A-law PCM codes. In a typical application pattern, ZXG10-TC is located between MSC and BSC.
16kbit/s RPE-LTP 64kbit/s A-law PCM codes
Transcoder (TC)
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• The network and switching sub-system mainly includes switching functions of the GSM system, and database functions used for subscriber data and mobility management as well as safety management. It manages the communications among GSM mobile subscribers and those between GSM mobile subscribers and other communication network subscribers.
Network and Switching Subsystem (NSS)
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MSC
VLR
B
MSC
VLR
B
G E
EIR
HLR/AUC
BSCBTS
NSS
A
BSS
F
C
D
Network and Switching Subsystem ( NSS )
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• The network sub-system is divided into six function units:
• Mobile Service Switching Center (MSC)• Home location Register (HLR)• Visitor Location Register (VLR)• Authentification Center (AUC)• Equipment Identification Register (EIR)• Operation and Maintenance Center (OMC)
NSS Architecture
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• As the core of a network, MSC provides switching functions, and connects mobile subscribers with fixed network subscribers, or with mobile subscribers. Thus, it provides interfaces to fixed networks (such as PSTN, ISDN, etc.) and interfaces for interconnection with other MSCs.
Mobile Services Switching Center (MSC)
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• MSC obtains all the data for processing subscriber call requests from 3 types of databases (HLR, VLR and AUC).
• MSC can provides a series of services for subscribers: • -Telecom services, such as phone, sms, and emergent calls• - Bearer services
• -Supplementary services, such as call transfer, call restriction and videoconferencing.
Functions of MSC
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• VLR stores all related information of mobile subscribers having entering into its coverage area, which enables MSC to set up incoming/outgoing calls. It can be taken as a dynamic subscriber database. VLR obtains and stores necessary data from the HLR of a mobile subscriber. Once a mobile subscriber leaves the coverage area of this VLR, it will be re-registered in another VLR, the temporarily recorded data of this mobile subscriber stored in the original VLR will be deleted.
Visitor Location Register ( VLR )
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• As the central database of the GSM system, HLR stores the related data of all existing mobile subscribers controlled by the same HLR. One HLR can control several mobile switching areas or the whole mobile communication network and the important static data of all subscribers are stored in the HLR, including IMSI, access capability, subscriber type and supplementary services. Furthermore, HLR also stores and provides MSC(A) with (dynamic) information of the MSC(B) area into which a mobile station has roamed, so that any incoming call is immediately sent to the called subscriber on a selected path.
Home Location Register ( HLR )
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• As a function unit of HLR, AUC is specially used for security management of the GSM system. AUC stores authentication information and encryption keys for subscriber authentication, encryption of voice, data, signaling messages on radio interfaces, preventing unauthorized subscribers access and guaranteeing the safety of mobile subscriber communication.
• Authentication Center ( AUC )
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• EIR stores the international mobile equipment identifier (IMEI) of mobile equipment. By checking 3 types of lists, i.e., white lists, black lists, and gray lists, it respectively lists the mobile equipment identifiers that are authorized, that should be monitored in case of faults, and that are unauthorized in case of theft. Service operators can use such information to locate the location of a stolen mobile station and block it.
• Equipment Identification Register ( EIR )
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NMS System
NMS functions : Network element and function
monitoring:
Fault management
Configuration management
Function management
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Wireless coverage area structure
Cell
Location Area
MSC Service Area
PLMN Service Area
GSM Service Area
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Cell is a smallest radio coverage area in the network
Cell
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Location area is group of cells It is the largest area in which mobile station may roam without updating its locationServed by one or more BSC but only one MSCThe area within which paging message are sent out to all the mobile subscriber.
LA
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MSC Service Area
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PLMN
A Public Land Mobile Network is : A group of MSC/VLR service areas The largest geographical service area served by one
network operator PLMN area for example area covered by Airtel or BSNL.
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The GSM service area is the collection of PLMNs in which you can use one mobile station
GSM service Area
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GSM Frequencies Allocation
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GSM Working Frequency
GSM
System
Uplink/ MHz Downlink/
MHz
Bandwidth/
MHz
Duplex
Isolation/ MHz
Channel
(ARFCN)
GSM900 890 ~ 915 935 ~ 960 2 ×25 45 124
GSM900E 880 ~ 915 925 ~ 960 2 ×35 45 174
GSM1800 1710 ~ 1785 1805 ~ 1880 2 ×75 95 374
GSM1900 1850~1910 1930~1990 2 ×60 80 299
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GSM900 :890~915MHZ (upward) 935~960MHZ (downward)Duplex interval is 45MHZ, working bandwidth is 25MHZ, and carrier frequency interval is 200KHZ. GSM ( DCS ) 1800 :1710-1785MHZ (upward) 1805-1880MHZ (downward) Duplex interval is 95MHZ, working bandwidth is 75MHZ, and carrier frequency interval is 200kHZ.EGSM900: 880~915MHZ (upward)925~960MHZ (downward)
GSM working frequency
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GSM working frequency
Channel Isolation 200 KHz per carrier , TDMA and 8 physical channels
Channel Configuration GSM900MHz :
fu(n)=890.2MHz+(n-1)*0.2MHz
fd(n)= fu(n)+45MHz
GSM1800MHz : fu(n)=1710.2MHz+(n-512)*0.2MHz
fd(n)= fu(n)+95MHz
fu(n) : Uplink frequency , MS transmitting , BTS receiving
fd(n) : Downlink frequency , BTS transmitting , MS receiving
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1800MHz
1900MHz
900MHz
Single Band Network
Single Band
Dual Band
Triple Band
In a sense, the network determines the handsets can be selected.But nowadays, most handsets support dual band.
Frequency Resources
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Cell coverage radius :
The higher the propagation frequency
The higher the propagation loss
The smaller the cell coverage radius.
900MHz
1800MHz
1900MHz
Single Band Network
We know
Propagation characteristic
Frequency Vs Distance
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Multiple-Access Techniques
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Multiple Access Techniques :Users share the public communication resource and have no
interferences to others.
Multiple Access Techniques
GSM Technique
FDMA
TDMA
CDMA
Multiple Access Techniques
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FDMA :Channels are differentiated by frequencies
Multiple Access Techniques - FDMA
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TDMA :Channels are differentiated by time slots
Multiple Access Techniques - TDMA
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CDMA :Channels are differentiated by codes
Multiple Access Techniques - CDMA
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TDMA Channels
TDMA Channels
Physical Channel Logic channel
Service channel Control channel
One slot is defined as a physical channel
Logic channel is based on different message type, it is mapped to different time slots.
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Timeslot in Time-domain
and Frequency-domain
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Physical Channel: TS
B T S
... ...
Bursts from Mobile Station
One Time Slot
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Time frame
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Types of Burst Pulse(1)
NB(Normal Burst): Used for traffic channel and control channels except for RACH, SCH, FCCH.
AB(Access Burst): Transmitted on RACH channel and used as access request made by MS to BTS. AB is the sole short BP sequence defined by GSM protocol.
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SB (Synchronization Burst): Transmitted on SCH channel and used for initial synchronization seizing by MS.
FB (Frequency Correction Burst) : Used for carrier frequency correction of MS.
DB (Dummy Burst): Has the same format with NB, mainly used for bit filling
Types of Burst Pulse
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GSM Channels Structure
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Channel types
In a GSM system, channels are divided into logical and physical channels. Time slots are basic physical channels; thus each carrier frequency contains 8 physical channels. Physical channels of radio sub-systems support logical channels which can be subdivided funcationally into traffic channels (TCH) and control channels (CCH).
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Traffic channel carries encoded speech or subscriber data, including full-rate traffic channel and half-rate traffic channel:
Speech channel
TCH/FS : TCH/Full speed 13Kbit/s
TCH/HS : TCH/Half speed 5.6Kbit/s
Data channel
TCH/F9.6 : TCH/Full 9.6Kbit/s
TCH/F4.8 : TCH/Full 4.8Kbit/s
TCH/H4.8 : TCH/Half 9.6Kbit/s
TCH/H2.4 : TCH/Half <=2.4Kbit/s
TCH/F2.4 : TCH/Full <=2.4Kbit/s
Traffic Channel (TCH)
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Control Channel
Control channelSignal bearing
Synchronous dataControl channel
CCH
DCCH
SDCCH ACCH
SACCH FACCH
CCCH
RACH CBCH
PCH/AGCH
BCH
BCCH SCH
FCCH
NB
ABNB NB
NB
FB
SBNB/DB
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BCCH: Broadcast control channel
BCCH, system information broadcasting :Current cell frequency
Neighbor cell BCCH frequency
LAI
CCCH and CBCH
management
Controlling and selecting
parameters
BCH is only Downlink BCH is only Downlink
FCCH, bearing information of frequency
correction , using for MS to locate the cell
and other system information for carrier
synchronization
SCH , bearing synchronous information ,TDMA
frame number and BSIC for frame synchronization
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CCCH: Common Control Channel
CCCH is assigned for all the MS in one cell
PCH --- Downlink channel , one
point to multipoint
Bearing paging information in one LAC,
is used by system to call MS
AGCH --- Downlink channel , one
point to multipoint
Bearing DCCH information to assign
resources to t MS such as SDCCH
channel.
CBCH ---
Downlink channel , one
point to multipoint
RACH --- Uplink
channel, one point to one
point
Broadcasting short massage and other
information of the cell to all MSs within a cell
Bearing information of random access requirement
used by MS to gain access to system
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DCCH: Dedicated Control Channel
SDCCH --- bi-direction channel , support
transfer of data to and from MS during call setup
and validation.
Information for call setup.
Location update
Short massage
TCH assignment
DCCH is assigned to a special MSDCCH is assigned to a special MS
SACCH --- bi-direction channel , signaling
channel associated with TCH and SDCCH
MS power control information
TA
FACCH --- bi-direction channel, associated with TCH
Bearing signaling information, faster than SACCH, handover message
Transferring signaling using 20ms TCH time slot: Frame stealing
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Logical Channel
Physical and Logical channel
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
12 logical channels,3 traffic + 9 Control
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PCH
RACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCH
SACCH
FACCH
ENHANCED FULL RATE
Traffic and control channels
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
FCCH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
SCH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
BCCH
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PCH
PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
RACH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
AGCH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
SDCCH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE
SACCH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE FACCH
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PCHRACH
BCCH
SCH
FCCH
HALF -RATE
AGCH
FULL –RATE
SDCCHSACCHFACCH
ENHANCED FULL RATE TCH
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Channel Combination
1) tCHFull TCH/F + FACCH/F + SACCH/TF2) tCHHalf TCH/H)+FACCH/H+ SACCH/TH3) tCHHalf2 TCH/H + FACCH/H+ SACCH/TH+ TCH/H4) mainBCCH FCCH + SCH + BCCH + CCCH5) bCCHCombined FCCH+SCH+BCCH+CCCH+ SDCCH/4+ SACCH/C46) bCH BCCH + CCCH7) sDCCH SDCCH/8+ SACCH/C88) bCCHwithCBCH FCCH+SCH+BCCH+CCCH+ SDCCH/4 + SACCH/C4 + CBCH9) sDCCHwithCBCH SDCCH/8+SACCH/C8+CBCH
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SF B C
R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R R
51 Ö¡
SF C C SF C C SF C C I
R R R R R R R R R R
D0 D1 D2 D3 D4 D5 D6 D7 A0 A1 A2 A3
SF C C
R R R R R R R R R R
III
D0 D1 D2 D3 D4 D5 D6 D7 A4 A5 A6 A7 III
A1 A2 A3 III
A5 A6 A7 III
D0 D1 D2 D3 D4 D5 D6 D7 A0
D0 D1 D2 D3 D4 D5 D6 D7 A4
SF B C SF C C SF D0 D1 SF D2 D3 ISF A0 A1
SF B C SF C C SF D0 D1 SF D2 D3 ISF A2 A3
D3
D3
R R
R R
A2 A3
A0 A1
D2
D2
RR
RR
D0 D1
D0 D1
R R R R R R R R R R R R R R R R R R R R R R R
R R R R R R R R R R R R R R R R R R R R R R R
F£ºFCCH S£ºSCHB£ºBCCH C£ºCCCH£¨CCCH=PCH+AGCH+RACH£©R£ºRACH D£ºSDCCHA£ºSACCH/C I£ºidle
BCCH+CCCH£¨ÏÂÐУ©
BCCH+CCCH£¨ÉÏÐУ©
8 SDCCH/8£¨ÏÂÐУ©
8 SDCCH/8£¨ÉÏÐУ©
BCCH+CCCH+4SDCCH/4£¨ÏÂÐУ©
BCCH+CCCH+4SDCCH/4£¨ÉÏÐУ©
(a) FCCH+SCH+BCCH+CCCH
(b) SDCCH/8(0,...,7)+SACCH/C8(0,...,7)
(c) FCCH+SCH+CCCH+SDCCH/4(0,...,3)+SACCH/C4(0,...,3)
Structure of 51-Frame Control Channel
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Structure of 26-Frame Traffic Channel
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Small capacity cell with only 1 TRXTN0:FCCH+SCH+CCCH+BCCH+SDCCH/4(0,_,3)+SACCH/C4(0,_,3);TN1_7: TCH/F+FACCH/F+SACCH/TF
The medium-size cell with 4 TRXs1TN0 group: FCCH+SCH+BCCH+CCCH;2 SDCCH/8(0,_,7)+SACCH/C8(0,_,7);29 TCH/F+FACCH/F+SACCH/TF
Channel Assignment inside Cells
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Large-size cell with 12 TRXs1 TN0 group: FCCH+SCH+BCCH+CCCH;
1 TN2 group, 1 TN4 group and 1 TN6 group: BCCH+CCCH;
5 SDCCH/8(0,_,7)+SACCH/C8(0,_,7);
87 TCH/F+FACCH/F+SACCH/TF
Channel Assignment inside Cells
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GSM Principle
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Purpose : restraining high frequency component, Preventing excessive instantaneous frequency offset, to satisfy coherent demodulation requirement.
requirements : out-of band radiating power: - 60 ~- 80dB
Feature: Adding pre-filter on the base of MSK modulator.
Gaussian filter : narrow bandwidth and being deep cutoff.
Lower extra pulse corresponding.
Constant output pulse area.
Application : GSM system
Gaussian filter
GMSK Modulation
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AMR-Adaptive MultiRate Codec
Unlike previous GSM speech codecs(FR, EFR, and HR), which operate at a fixed rate and constant error protection level, the AMR speech codec adapts its error protection level to the local radio channel and traffic conditions.
AMR actually comprises a family of codec's, which greatly increases its flexibility.
In poor network conditions that produce a high amount of errors, more bits are used for error correction to obtain robust coding. However, when transmission conditions are good, fewer bits are needed for sufficient error protection and more can therefore be allocated for speech coding.
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AMR Codec Mode
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In order to enhance channel anti-interference capacity and transmission quality, special redundancy technologies should be adopted to increase the bulk of transmitted information which can be inserted at a certain pattern (encoding) at the sending end and extracted at an agreed pattern (decoding) at the receiving end. This is called the encoding/decoding process of channels. Commonly used channel coding methods are: 1) convolution coding; 2) Fire coding; 3) parity check coding.
Channel Encoding
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De-interleaver
channel
interleaverInner encoder
Inner decoder
Outerencoder
Outer decoder
Speech coder
Speechdecoder
13 kbit/s33.9 kbit/s
22.8 kbit/s
Speech outputs
Speech inputs
Channel Coding
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50bi t(I a) 132bi t(I b) 78bi t(I c)
50 3 132 4
1
78
260bi t/20ms
X2 X3 X4
Fi re code
+
+
Protecti onbi ts
456bi t
78bi t
378bi t
Bl ockcodi ng
Convol uti onalcoder
G0
G1
136bi t
189bi t
53bi t
O/E
Convolutional coding
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Channel Interleaving In radio telecommunication, error bits often occurs in the burst pulse
sequence because of deep signal fading. Check and correction of errors cannot be efficiently done merely by means of channel encoding mentioned above. Interleaving technique is thus adopted, by which the continuous bits in an information block are segmented and transmitted individually according to certain rules. That is, the originally continuous block in the transmission process becomes discontinuous, forming a group of interwoven message transmitting blocks, which are to be recovered (de-interleaving) into the original information blocks at the receiving end.
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Interleave Technique
Interleave technique: Information codes are permutated and combined before transmitting in the TX; information codes are de-permuted and de-combined in the RX; it can decrease BER.
3 41 2 3 41 2 3 41 2 3 41 2
3 41 3 41 2 3 41 2 3 41 2
3 41 2 3 41 2 3 41 2 3 41 2
2
Massage grouping
Interleaving
Massage grouping after interleaving Error
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456bit
Block A
08
1
19
2
210
3
311
4
412
5
513
6
614
7
715
8
456bit
Block B
08
1
19
2
210
3
311
4
412
5
513
6
614
7
715
8
456bit
Block A+1
08
1
19
2
210
3
311
4
412
5
513
6
614
7
715
8
456bit
Block B+1
08
1
19
2
210
3
311
4
412
5
513
6
614
7
715
8
57 1 57 1 57 1 57 1 57 1 57 1 57 1 57 1
Even N+3Even N+2Even N+1
Even N
Odd N+4Odd N+5
Odd N+6 Odd N+7
116-bit block 116-bit block 116-bit block 116-bit block
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Two aims can be achieved by adopting DTX mode. One is to lower the total interference level in the air, and the other is to save transmitter power. The DTX mode and the normal mode are optional, since the former will slightly lower the transmission quality.
Discontinuous Transmission (DTX)
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DTX is also called voice control.
The average speech consumed time is usually less than 40% the channel
consumed time.
DTX function : Interference reduction , speech quality improvement , capacity increase.
Reducing TX time and increasing working time.
Discontinuous Transmission
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Power Control
Purpose: using minimum TX power to guarantee the normal service quality, reducing co-channel interference.
Dynamic power control: Power of BTS and MS can be dynamic adjusted according to path loss and signal quality. this will get the minimum signal strength to satisfy system quality requirements.
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Diversity Technique
Diversity technique: multipath signals are received and combined to one
signal, this will increase signal quality.
Including: time diversity, space diversity, frequency diversity, polarization
diversity, etc.
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Signals sent by a base station on the broadcasting channel help mobile stations to synchronize with the base station. After connection is set up between a mobile station and the base station, the base station will make continuous tests, and provide the time advance (TA) on the SACCH channel to all mobile stations twice every second according to the BS-MS-BS broadcasting delay. Mobile stations will make self-adaptive frame adjustment according to time advance so that the time of mobile station transmission to the base station matches that of base station reception.
Timing Advance (TA)
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BTS
BTS transmit at time 0
MS receive at time d/c
MS transmit at time 3+d/c
BTS receives at time 3 +2d/c
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TA: Time Advance
MS RX
1 2 3 4 5 6 70
3TSOFFSET
TDMA FRAME N
MS RX
1 2 3 4 5 6 70
3TSOFFSET
TDMA FRAME N
MS TX
1 2 3 4 5 6 70
TDMA FRAME N
MS TX
1 2 3 4 5 6 70
TDMA FRAME N
TIME ADVANCE
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To enhance system anti-interference ability, the GSM system adopts the frequency hopping technology. Frequency hopping refers to the hopping of carrier wave frequencies according to a certain sequence in a very wide frequency range. Data of control information are converted into base band signals after modulation, which are then sent into carrier wave modulation. Afterwards, the carrier frequency changes under the control of pseudo-random codes, the sequence of which is frequency-hopping sequence. Finally, when filtered by radio filter, the carrier is transmitted to and radiated by antenna.
Frequency Hopping(1)
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Frequency hopping is to avoid external interference. In other words, it is to prevent or greatly reduce co-channel interference and frequency selective fading effect by converting frequencies to an extent that interference cannot catch up with
There are two frequency hopping modes: base band frequency hopping and radio frequency hopping.
Frequency Hopping(2)
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Reason: counteract Rayleigh Fading scatter interference among multiple calls Types: Base band frequency hopping
keeps the transmission and receiving frequency of each carrier unit unchanged, but merely sends FU transmission data to different carrier units at different FN moments.
radio frequency hoppingcontrols the frequency synthesizer of each transceiver, making it hop according to different schemes in different time slots.
Frequency Hopping Technique
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GSM Network Functions
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Overview
GSM network functions
Communication services
Supports basic and supplementary
services to guarantee the
communication between users.
Mobile managements
Supports all mobile related function
including location update, handover
and roaming.
Security managements
Supports Authentication, signaling and
user data encryption.
Additional call
processing functions
Supports call rebuilding,
queuing, DTX and so on.
Emphasis!
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Location Update
HLR
VLR
MSC (old)
VLR
MSC (new)
LocationUpdate
Initiated by the MS.
The current location information is
stored in the SIM.
MS will initiate the location update
when the current location is different
with that in the SIM.
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Location Update
Location Types:Startup & Shutdown
IMSI ATTACH/DETACH
Location register
MS startup & shutdown
General location update
LAC is changed
Periodic location update
The period is set by operators
MS will initiate the location
update when the period is
exceeded.
VLRMSC
LA 2LA 1
ON
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Purpose:Continuous communication in the moving.
Increasing service quality:
Decrease call drop rate
Decrease congestion rate
Network elements participating the handover:MS 、 BTS 、 BSC 、 MSC
MS : measurements of downlink signal quality and adjacent cell signal
strength.
BTS : Monitoring uplink signal quality and interference, sending results to
BSC.
BSC : Handover judgment.
MSC : Handover judgment between BSS or MSC handover.
Handover
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Trigger condition:
Power budget handover
Rescuing signal handover
Rescuing quality handover
Distance handover
Traffic handover
Time advance:
Synchronous handover
Asynchronous handover
Location:
Intra-cell handover
Intra-BTS handover
Intra –BSC handover
Inter –BSC handover
Inter –MSC handover
Handover Type
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Air A
TCBTS BSC
Intra-cell Handover
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A ir A
T CB T S
B T S
B S C
O ld C e ll / B T S N ew C e ll / B T S
Intra-BSC Handover
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A ir A
B T S
O ld C ell / B T S
N ew C ell / B T S
B T S
B S C T C
B S C T C
VL RM SC
Inter-BSC Handover
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A ir A
B T S
O ld C ell / B T S
N ew C ell / B T S
B T S
B S C T C
B S C T C
VLRM SC
VLRM SC
Inter-MSC Handover
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GSM Numbering Plan
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GSM LAC
PLMN Area
MSC Area
LAC Area BTS
Area
CELL AreaGSM Service
Area
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Numbering System
International mobile subscriber identification number (IMSI)
International mobile subscriber identification number (IMSI)
It identifies a unique international universal number of a mobile subscriber, which consists of MCC+MNC+MSIN.
1) MCC: country code, 4602 ) MNC: network code, 00 or 013 ) MSIN: subscriber identification, H1H2H3H4 9XXXXXX, H1H2H3H4: subscriber registering place H1H2: assigned by the P&T Administrative Bureau (operator )to different provinces, to each province
H3H4: assigned by each province/city
the IMSI of user will be written into the SIM card by specific device and software and be stored into the HLR with other user information.
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It is the subscriber number commonly used. China uses the TDMA independent numbering plan:
CC+NDC+ H1H2H3H4 +ABC
CC: country code, 86NDC: network code, 135—139, 130H1H2H3H4: HLR identification code ABCD: mobile subscriber number inside each HLR
Mobile subscriber ISDN number ( MSISDN )Mobile subscriber ISDN number ( MSISDN )
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International Mobile Equipment Identification code(IMEI)
International Mobile Equipment Identification code(IMEI)
It will uniquely identify a mobile station. It is a decimal number of 15 digits. Its structure is:
TAC+FAC+SNR+SP
TAC=model ratification code, 6 digitsFAC=factory assembling code, 2 digitsSNR=sequence code, 6 digitsSP=reserved, 1 digit
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Mobile subscriber roaming number (MSRN)Mobile subscriber roaming number (MSRN)
The MSRN is temporarily distributed to the subscriber by the VLR according to the request by the HLR when this subscriber is called. The MSRN is released and can be assigned to other subscriber later.
CC + NDC + 00 + M1M2M3 + ABC CC: country code, 86 NDC: mobile network code, 135—139, 130 M1M2: same as the H2H3 of MSISDN ABC: 000 -- 999
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Temporarily Mobile Subscriber Identification Number (TMSI)
Temporarily Mobile Subscriber Identification Number (TMSI)
To insure the IMSI security, the VLR will assign an unique TMSI number for the accessed subscriber. It is used locally only and is a 4-byte TMSI number BCD code.
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GSM Numbering PlanLAI
LAI: Location Area Identity
Definition : The area where MS need not to update location when moving. It
includes one or more cells.
The paging area of the system.
MSC >= LA >= Cell
Function : Location update monitoring and handover request.
MCC MNC LAC
LAI
3 bits 2 bits maximum16bit
LAC : Location Area Code , identification of a GSM Location Area. It is defined by operator.
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GSM Numbering PlanBSIC
BSIC :Base Station Identity Code
To identify adjacent BTS in different countries, it is a 6 bits code.
NCC : PLMN Color Code , to identify different operators.
BCC : BTS Color Code , assigned by operator to cells with the same frequency.
NCC BCC
BSIC
3bit 3bit
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CILACMNC
LAI
CGI
MCC
Cell Global Identity ( CGI )
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MCC resource is allocated and managed by ITU. The MCC of China is 460 ( decimal).
MNC is usually allocated by the relevant telecommunication administration department of a country.
The LAC encoding mode is specified correspondingly by every country. Usually, the location area should be as large as possible***.
Two or more cells in the same location area are not allowed to share the same CI.
Setting of CGI
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CGI
MCC ( Mobile Country Code ) : consists of 3 decimal digits, and the value range is the decimal 000 ~ 999.
MNC ( Mobile Network Code ) : consists of 3 decimal digits, and the value range is the decimal 00 ~ 99.
LAC ( Location Area Code ) : The range is 1-65535.
CI ( Cell Identity ) : The range is 0-65535.
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Role of CGI
The CGI information is sent along the system broadcasting information in every cell. When the MS receives the system information, it will extract the CGI information from it and determines whether to camp on the cell according to the MCC and MNC specified by the CGI. In the meantime, it judges whether the current location area is changed, then determines whether to take the location updating process. During the location updating process, the MS will report the LAI information to the network so that the network is fully aware of the cell where the MS is currently located.
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GSM Frequency Reuse Technology
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Types of Interference
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Interference Protection Ratio
Carrier interference ratio C/I Definition :
The ratio between useful signal and useless signal.
Co-channel interference protection ratio C/I :The inter-cell interference when using the same frequency.
Standard requirement : C/I>=9dB.
Engineering requirement : C/I>=12dB.
Adjacent channel interference protection ratio C/A :The inter-cell interference when using adjacent frequency.
Standard requirement : C/I>= - 9dB.
Engineering requirement :C/I>= - 6dB.
The interference protection ratio with 400Khz isolation: C/I>=-
41dB
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Frequency reuse
Frequency reuse is the process of reusing the same frequencies over
and over again within the network as long as they are separated
geographically.
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C1 C1
f1
P0
f1
P0R R
C/I=¦ Ã C/I=¦ Ã
D
Frequency reuse :Users in different locations can use the same frequency,
which will increase the spectral efficiency.
Frequency reuse should be designed carefully, unreasonable
design may course interference.
Frequency Reuse Technique
(D/R)2=3*K D - Frequency reuse distance R – Cell radius K – Frequency reuse mode
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Frequency Re-use Mode
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4/12 Clusters
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3/9 Cluster
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GSM Development
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1 k
1 M
2 M
Bit/s
MessagingSMS
Voice
Graphics
text
Medium quality
High quality
Mobile Office
VideoUMTSUMTS
GPRSGPRS
2002
2000
GSMGSM10 k
1999 56 k
EDGEEDGE 2001
115 k
384 k
Always-on
Mobile Communication Development
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SMSInformationServices Chat
RoomE-Mail
m-stock trading
m-bankingm-cash
Picture Mail
Route planning
Multi-playerGames
Mobile OfficeSchedule ManagementWork flow ManagementElectronic ConferenceFile Sharing
Radio
Music
Video Mail
Video streaming
Web
Interactive TVTV Conference
WAPWAP
GPRSGPRS
3G3G
Data Services Development
High date rate
Low data rate
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GSM/CDMA/UMTS market share
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