Introduction to GSM GSM was orignally developed to

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 • Introduction to GSM • -GSM was orignally developed to serve as the

• Introduction to GSM • -GSM was orignally developed to serve as the cellular service for Europiean contries • -Currently it is the worlds most popular standard for new cellular radio and personal communication equipment throughout the world Visit for more Learning Resources

 • GSM Features 1] SIM-Subscriber Identitity Module Which stores information in the form

• GSM Features 1] SIM-Subscriber Identitity Module Which stores information in the form of ID number, N/w and countries where subscriber is entitled to service, privacy keyes and other user specific information Each subscriber have 4 digit personal ID no to activate GSM service 2]On The Air Privacy The privacy is made possible by encrypting the digital bit stream sent by GSM transmitter by using specific secret cryptographic key. That is only known to cellular carrier This key changes with time for each user Every carrier and GSM eqipment manufacturermust sign the memorandum of understanding before developing GSM eqipment

 • Continue. . . The Mou is an international agreement which allows the

• Continue. . . The Mou is an international agreement which allows the sharing of cryptographic algorithm and other information between countries and carriers

 • GSM Services GSM services follow ISDN Guidlines and are classified into 1]Teleservices

• GSM Services GSM services follow ISDN Guidlines and are classified into 1]Teleservices 2]Data service 3]User service 1]Teleservice-Standard Mobile telephony 2]Data service-Computer -to-computer communication and packet switched traffic 3]User service-they are divided into three major categories 1]Telephone service 2]Bearer Service 3]Supplimentary ISDN services

 • Continue. . . 1]Telephone services Including emergency calling, videotext and teletex 2]Bearer

• Continue. . . 1]Telephone services Including emergency calling, videotext and teletex 2]Bearer services Supports packet switched protocol and data rates from 300 bps to 9. 6 kbps The mode in which data can be transported could be transparent or non transparent mode

 • Continue 3]Supplimentary ISDN service Digital in nature It includes call diversion, closed

• Continue 3]Supplimentary ISDN service Digital in nature It includes call diversion, closed user groups and caller identification They also include the short messege service which allow GSM subscriber and base stations to transmit alphanumeric pages of limited length While simultaneously carring normal voice traffic SMS also provides cell brodcasting which allows GSM base Station to repetitively transmit ASCII messages with as many as fifteen strings in concatenating fashion

 • GSM Architecture It consist three major components 1]Base station subsystem(BSS) 2]Operation and

• GSM Architecture It consist three major components 1]Base station subsystem(BSS) 2]Operation and Maintenance Center(OMC) 3]Network and Switching Subsystem(NSS)

 • Base Station subsystem It consist Mobile station (MS), Base station Controllers(BSC), Base

• Base Station subsystem It consist Mobile station (MS), Base station Controllers(BSC), Base Tranreceiver Stations(BTS). BSC Many base station system controlles by BSC Maintain connection to Ms Coding decoding of voice

 • BSC and BTS BSC provides all control function and physical link between

• BSC and BTS BSC provides all control function and physical link between MSC and BTS is responsible for handling radio interface to the mobile station it is connected to MS via Um interface contains all machnism for wireless interface (TDMA. FDMA) BTS is radio equipment(Anteena)

 • OMC It connect to BSC it perfom function of handovers, system load,

• OMC It connect to BSC it perfom function of handovers, system load, blocking rates etc. it also monitor the netwok and dignosis and troubleshoot the GSM network

 • Network Switching subsystem • -It is responsible for performing call processing and

• Network Switching subsystem • -It is responsible for performing call processing and subscriber related function. -It includes • 1] MSC-Mobile switching Center • 2]HLR-Home location register(HLR) • 3]Visitor Location register(VLR) • 4] Authentication Center(AUC) • 5]Equipment Identity Register(EIR)

 • MSC • 1 It handle communication between different MS connected to different

• MSC • 1 It handle communication between different MS connected to different BSCs. • 2] the function of MSC is to locate different MS and associated BTS, call switching and authentication etc.

 • HLR • It is a database for managing the mobile subscriber •

• HLR • It is a database for managing the mobile subscriber • It stores permanent data of subscriber • Eg. service profile, location information • A home subscriber charges are less than roaming subscriber.

 • VLR • It is database which consist temporary information about subscribers used

• VLR • It is database which consist temporary information about subscribers used by MSC to provide services to visiting subscriber

 • AUC • This authentication center is used to provide authentication and encryption

• AUC • This authentication center is used to provide authentication and encryption method that is used to verify the user identity, ensure confidentiality and secrecy of each cell

 • EIR • It contains a list of all valid MS eqipment within

• EIR • It contains a list of all valid MS eqipment within the network

 • GSM Physical Channel (in detail) • A single GSM Carrier is divided

• GSM Physical Channel (in detail) • A single GSM Carrier is divided into eight timeslots. • Therefore can support up to eight MS subscribers simultaneously. • The timeslots are arranged in sequence and are conventionally numbered 0 to 7. • Each repetition of this sequence is called a “TDMA frame”. • 18

 • GSM Physical Channel Cntd. . BURST: The information carried in one timeslot

• GSM Physical Channel Cntd. . BURST: The information carried in one timeslot is called a “burst”. The timing of the burst transmissions to and from the mobiles is critical. Each time slot of a TDMA frame lasts for duration of 156. 25 bit periods or 576. 9 µsec or 0. 576 ms so a frame takes 4. 615 ms GSM’s data transmission rate is 270. 83 kbps per carrier frequency. Therefore one bit duration is 3. 692 µsec • 19

 • Burst structure • As it has been stated before, the burst is

• Burst structure • As it has been stated before, the burst is the unit in time of a TDMA system. Four different types of bursts can be distinguished in GSM: • The frequency-correction burst is used on the FCCH. It has the same length as the normal burst but a different structure. • The synchronization burst is used on the SCH. It has the same length as the normal burst but a different structure. • The random access burst is used on the RACH and is shorter than the normal burst. • The normal burst is used to carry speech or data information. It lasts approximately 0. 577 ms and has a length of 156. 25 bits.

 • Normál burst (NB) • Frequency Correction Burst (FB) • Synchronization burst (SB)

• Normál burst (NB) • Frequency Correction Burst (FB) • Synchronization burst (SB) • Access burst (AB)or RACH • TB • 000 • Training seq. • Data • 58 bit • 26 bit • TB • Data • Sync. seq. • 39 bit • TB • Sync. seq. • 000 • 8. 25 bit time • 39 bit • Data • 36 bit • GP • 000 • 8. 25 bit time • Data • 64 bit • 41 bit • GP • TB • 142 bit • 000 • 58 bit • 000. . . 0 • 000 • TB • Data • TB • GP • 000 • 8. 25 bit time • TB • GP • 000 • 68. 25 bit time

 • GSM Logical Channels • There are two main groups of logical channels,

• GSM Logical Channels • There are two main groups of logical channels, traffic channels and control channels. Run over a physical channel, but not necessarily in all its time slots Traffic & Control channels are further classified into groups. • 22

 • Traffic Channels • Traffic channels can carry either 1. Speech or 2.

• Traffic Channels • Traffic channels can carry either 1. Speech or 2. Data In addition to these full-rate TCHs, there also half-rate TCHs defined. • 23

 • Traffic Channels Cntd. . • Full Rate TCH • • Half Rate

• Traffic Channels Cntd. . • Full Rate TCH • • Half Rate TCH • TCH/FR • TRAFFIC CHANNELS • TCH/HR • TCH/F 9. 6 • TCH/F 4. 8 • TCH/H 4. 8 • TCH/H 2. 4 • TCH/F 2. 4 • Full Rate Traffic Channels • Half Rate Traffic Channels • Name • Type • Data Rate • NAME • Type • Data Rate • TCH/FR • Speech • 22. 8 kbps • TCH/HR • Speech • 11. 4 kbps • TCH/F 9. 6 • Data • 22. 8 kbps • TCH/H 9. 6 • Data • 11. 4 kbps • TCH/F 4. 8 • Data • 22. 8 kbps • TCH/H 4. 8 • Data • 11. 4 kbps • TCH/F 2. 4 • Data • 22. 8 kbps • 24

 • GSM CONTROL CHANNELS (CCH) There are three main control channels in the

• GSM CONTROL CHANNELS (CCH) There are three main control channels in the GSM system 1. Broadcast Channel (BCH) 2. Common Control Channel (CCCH) 3. Dedicated Control Channel (DCCH) Each control channel consists of several logical channels having different Control Functions. • 25

 • GSM CONTROL CHANNELS (CCH) • 26

• GSM CONTROL CHANNELS (CCH) • 26

 • i) BROADCAST CONTROL CHANNEL (BCCH) The BCH provides synchronization for all mobiles

• i) BROADCAST CONTROL CHANNEL (BCCH) The BCH provides synchronization for all mobiles within the cell. BCCH is a forward control channel. information such as cell and network identity. The BCCH is transmitted by the BTS at all times. The RF carrier used to transmit the BCCH is referred to as the BCCH carrier. Information on BCCH is monitored by the MS periodically (at least every 30 secs), when switched on & not in a call. The BCCH is transmitted at constant power at all times, and its signal strength is measured by all MS which may seek to use it. • 27

 • BROADCAST CONTROL CHANNEL Cntd…. BCCH Carries the following information (this is only

• BROADCAST CONTROL CHANNEL Cntd…. BCCH Carries the following information (this is only a partial list): 1. Location Area Identity (LAI). 2. List of neighboring cells which should be monitored by the MS. 3. List of frequencies used in the cell. 4. Cell identity. 5. Power control indicator. 6. DTX permitted. 7. Access control (for example, emergency calls, call barring). 8. List of Channels currently in use within a cell. • 28

 • ii) FREQUENCY CORRECTION CHANNEL (FCCH) FCCH is a forward control channel. The

• ii) FREQUENCY CORRECTION CHANNEL (FCCH) FCCH is a forward control channel. The FCCH allows each subscriber unit to synchronize its internal frequency standard (local oscillator) to exact frequency of the base station • 29

 • iii) SYNCHRONIZATION CHANNEL (SCH) It’s also a Downlink Channel. SCH allows each

• iii) SYNCHRONIZATION CHANNEL (SCH) It’s also a Downlink Channel. SCH allows each mobile to frame synchronize with the base station. • 30

 • 2]COMMON CONTROL CHANNEL (CCCH) The common control channels occupy TS 0 of

• 2]COMMON CONTROL CHANNEL (CCCH) The common control channels occupy TS 0 of every GSM frame that is not otherwise used by the BCH. CCCH consist of three different channels. These channels are described in following slides • 31

 • i) PAGING CHANNEL (PCH) It exists only on downlink (Forward channel). The

• i) PAGING CHANNEL (PCH) It exists only on downlink (Forward channel). The paging channel (PCH) provides paging signals to all mobiles. notifies a specific mobile of an incoming call which originates from the PSTN. The PCH transmit the IMSI of the target subscriber, along with a request for acknowledgment from the mobile unit. the PCH is also used to provide cell broadcast ASCII text messages to all subscribers, as part of the SMS feature of GSM • 32

 • ii) RANDOM ACCESS CHANNEL (RACH) The RACH is the only reverse link

• ii) RANDOM ACCESS CHANNEL (RACH) The RACH is the only reverse link (uplink) channel. MS acknowledges a page from the PCH on RACH is also used by mobiles to originate a call. At the BTS, every frame (even the idle frame) will accept RACH transmissions from mobiles during TS 0 • 33

 • iii) ACCESS GRANT CHANNEL (AGCH). AGCH is used by the BS to

• iii) ACCESS GRANT CHANNEL (AGCH). AGCH is used by the BS to provide forward link communication. The AGCH is used by the BS to respond to a RACH sent by a mobile station. It carries data for MS to operate in a particular physical channel The AGCH is the final CCCH message sent by the base station to a subscriber • 34

 • iv) CELL BROADCAST CHANNEL (CBCH) CBCH is used to transmit messages to

• iv) CELL BROADCAST CHANNEL (CBCH) CBCH is used to transmit messages to be broadcasted to all MSs within a cell. it is considered a common channel because the messages can be received by all mobiles in the cell. • 35

 • 3]DEDICATED CONTROL CHANNELS (DCCH) There are three (03) types of Dedicated Control

• 3]DEDICATED CONTROL CHANNELS (DCCH) There are three (03) types of Dedicated Control Channels in GSM. like Traffic Channels they are bi-directional. Same format and function in both the forward and reverse links. • 36

i) STAND-ALONE DEDICATED • COTROL CHANNEL (SDCCH) The SDCCH carries signaling data following the

i) STAND-ALONE DEDICATED • COTROL CHANNEL (SDCCH) The SDCCH carries signaling data following the connection of the MS with the BTS just before a TCH assignment. The SDCCH ensures the Connection b/w MS and BS during the verification of subscriber unit & allocation of resources for the MS. • 37

i) STAND-ALONE DEDICATED • COTROL CHANNEL (SDCCH) The SDCCH carries signaling data following the

i) STAND-ALONE DEDICATED • COTROL CHANNEL (SDCCH) The SDCCH carries signaling data following the connection of the MS with the BTS just before a TCH assignment. The SDCCH ensures the Connection b/w MS and BS during the verification of subscriber unit & allocation of resources for the MS. • 38

i) STAND-ALONE DEDICATED • COTROL CHANNEL (SDCCH)…… The SDCCH is requested from the MS

i) STAND-ALONE DEDICATED • COTROL CHANNEL (SDCCH)…… The SDCCH is requested from the MS via the RACH and assigned via the AGCH. The SDCCH can be thought of as an intermediate and temporary channel. A SDCCH may also be used for 1. call setup, 2. Authentication 3. location updating 4. SMS point to point 5. e-Fax • 39

 • ii) SLOW-ASSOCITED CONTROL CHANNEL (SACCH) On forward channel -BTS to the mobile

• ii) SLOW-ASSOCITED CONTROL CHANNEL (SACCH) On forward channel -BTS to the mobile station. 1. transmit power level instruction. 2. and specific timing advance instruction. • 40

 • ii) SLOW-ASSOCITED CONTROL CHANNEL (SACCH)…. . On reverse channel SACCH sends 1.

• ii) SLOW-ASSOCITED CONTROL CHANNEL (SACCH)…. . On reverse channel SACCH sends 1. received signal strength (form Serving BTS). 2. quality of the TCH. 3. BCH measurement results (from neighboring cells) The SACCH is transmitted during the 13 th frame of every speech dedicated control channel • 41

 • iii) FAST-ASSOCIATED CONTROL CHANNEL (FACCH) FACCH carries urgent messages, and contains essentially

• iii) FAST-ASSOCIATED CONTROL CHANNEL (FACCH) FACCH carries urgent messages, and contains essentially the same type of information as the SDCCH. A FACCH is assigned whenever a SDCCH has not been dedicated for a particular user and there is an urgent message (e. g. handoff request). The FACCH gains access to a time slot by “stealing” frames from the traffic channel to which it is assigned • 42

 • GSM Basic Call Sequence • 43

• GSM Basic Call Sequence • 43

 • Call Setup Procedure • 45

• Call Setup Procedure • 45

 • GSM Speech Signal Processing For more detail contact us

• GSM Speech Signal Processing For more detail contact us