What is GSM?
The Global System for Mobile communications is a digital cellular communications system. It was developed in order to create a common European mobile telephone standard but it has been rapidly accepted worldwide.
Formerly it was “Groupe Spéciale Mobile” (founded in 1982)
now: Global System for Mobile Communication.
Services:
Tele-services
Bearer or Data Services
Supplementary services
Applications:
Mobile telephony
GSM-R
Telemetry System
- Fleet management
- Automatic meter reading
- Toll Collection
- Remote control and fault reporting of DG sets
Value Added Services
Advantages:
Better Quality of speech
Data transmission is supported
New services offered due to ISDN compatibility
International Roaming possible
Large market
Crisper, cleaner quieter calls
disadvantages:
Dropped and missed calls
Less Efficiency
Security Issues
conclusion
The mobile telephony industry rapidly growing and that has become backbone for business success and efficiency and a part of modern lifestyles all over the world.
In this session I have tried to give and over view of the GSM system. I hope that I gave the general flavor of GSM and the philosophy behind its design.
The GSM is standard that insures interoperability without stifling competition and innovation among the suppliers to the benefit of the public both in terms of cost and service quality.
What is GSM?
The Global System for Mobile communications is a digital cellular communications system. It was developed in order to create a common European mobile telephone standard but it has been rapidly accepted worldwide.
Formerly it was “Groupe Spéciale Mobile” (founded in 1982)
now: Global System for Mobile Communication.
Services:
Tele-services
Bearer or Data Services
Supplementary services
Applications:
Mobile telephony
GSM-R
Telemetry System
- Fleet management
- Automatic meter reading
- Toll Collection
- Remote control and fault reporting of DG sets
Value Added Services
Advantages:
Better Quality of speech
Data transmission is supported
New services offered due to ISDN compatibility
International Roaming possible
Large market
Crisper, cleaner quieter calls
disadvantages:
Dropped and missed calls
Less Efficiency
Security Issues
conclusion
The mobile telephony industry rapidly growing and that has become backbone for business success and efficiency and a part of modern lifestyles all over the world.
In this session I have tried to give and over view of the GSM system. I hope that I gave the general flavor of GSM and the philosophy behind its design.
The GSM is standard that insures interoperability without stifling competition and innovation among the suppliers to the benefit of the public both in terms of cost and service quality.
Introduction to Cellular Mobile System,
Performance criteria,
uniqueness of mobile radio environment,
operation of cellular systems,
Hexagonal shaped cells,
Analog Cellular systems.
Digital Cellular systems
SPACE DIVISION MULTIPLE ACCESS (SDMA) SATELLITE COMMUNICATION Soumen Santra
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Definition : The communication channel encountered by this array of antennas.
advanced antenna technology.
Smart Antenna
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Introduction to Cellular Mobile System,
Performance criteria,
uniqueness of mobile radio environment,
operation of cellular systems,
Hexagonal shaped cells,
Analog Cellular systems.
Digital Cellular systems
SPACE DIVISION MULTIPLE ACCESS (SDMA) SATELLITE COMMUNICATION Soumen Santra
SPACE DIVISION MULTIPLE ACCESS (SDMA)
Definition : The communication channel encountered by this array of antennas.
advanced antenna technology.
Smart Antenna
Uplink Transmission
Downlink Transmission
Block Diagram
Features
Beam Frequency Reuse
Advantages
Disadvantages
Co-channel and adjacent-channel interference evaluation of an outdoor telecom...Konstantinos Stamatakis
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Brief introduction of each Generation: GSM - 2G, 2.5 G - GPRS, 2.75G - EDGE, 3G and then LTE/4G
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Cellular communication
1. CELLULAR COMMUNICATION
Prepared by :
Prashant Kumar Gajendra
Regd no.-1305106016
College of Engineering & Technology
Department of C.S.A
Guided by :
Mr. Manjit Kumar Nayak
2. Contents
History
Network Cells
Frequency Reuse
Cellular Network components
Setting and making a call
Receiving a call
Cellular concepts & Channels
GSM & features
Cellular Services
Conclusion
3. History
Radio communication was invented by Marconi: in 1893
in 1940 the first walkie-talkie was used by the US military
in 1947, John Bardeen and Walter Brattain from AT&T’s Bell Labs
invented the transistor (semiconductor device used to amplify radio
signals)
in 1979 the first commercial cellular phone service was launched by
the Nordic Mobile Telephone (in Finland, Sweden, Norway, Denmark).
4. Cellular systems generations
1G (first generation) – voice-oriented systems based on analog technology;
ex.: Advanced Mobile Phone Systems (AMPS)
2G (second generation) - voice-oriented systems based on digital
technology; more efficient and used less spectrum than 1G; ex.: Global
System for Mobile (GSM) and US Time Division Multiple Access (US-
TDMA)
3G (third generation) – high-speed voice-oriented systems integrated with
data services; ex.: General Packet Radio Service (GPRS), Code Division
Multiple Access (CDMA)
4G (fourth generation) – mobile ultra-broadband Internet access, for
example to laptops with USB wireless modems to smart phones, and to
other mobile devices
5. Network Cells
CELL : Its a geographical
unit of a cellular network; is
the area around an antenna
where a specific frequency
range is used; is represented
graphically as a hexagonal
shape, but in reality it is
irregular in shape
6. Network Cells
A CLUSTER is a group of adjacent cells, usually 7 cells; no
frequency reuse is done within a cluster
The frequency spectrum is divided into subbands and each
subband is used within one cell of the cluster
7. Frequency reuse
It is a method used by service providers to improve the efficiency of a
cellular network and to serve millions of subscribers using a limited
radio spectrum
8. Types of cells
Macrocell – their coverage is large (aprox. 6 miles in
diameter); used in remote areas, high-power
transmitters and receivers are used
Microcell – their coverage is small (half a mile in
diameter) and are used in urban zones; low-powered
transmitters and receivers are used to avoid
interference with cells in another clusters
Picocell – covers areas such as building or a tunnel
10. Cellular network components
BTS (Base Transceiver Station) – main component of a cell
and it connects the subscribers to the cellular network; for
transmission/reception of information it uses several
antennas spread across the cell
BSC (Basic Station Controller) – it is an interface between
BTSs and it is linked to BTSs by cable or microwave links; it
routes calls between BTSs; it is also connected to the MSC
MSC (Mobile Switching Center) – the coordinator of a cellular
network, it is connected to several BSCs, it routes calls
between BSCs; links the cellular network with other networks
like PSTN through fiber optics, microwave or copper cable
11. HLR, VLR and EIR registers
Home Location Register (HLR) - is a database maintained by
the service provider containing permanent data about each
subscriber (i.e. location, activity status, account status, call
forwarding preference, caller identification preference)
Visitor Location Register (VLR) – database that stores
temporary data about a subscriber; it is kept in the MSC of
the of the area the subscriber is located in; when the
subscriber moves to a new area the new MSC requests this
VLR from the HLR of the old MSC
Equipment Identity Register (EIR) – database located near
the MSC and containing information identifying cell phones
like IMEI no.
12. Components of a cellular phone
Radio transceiver – low power radio transmitter and
receiver
Antenna - which is usually located inside the phone
Control circuitry – formats the data sent to and from
the BTS; controls signal transmission and reception
Man-machine interface – consists from a keypad and a
display; is managed by the control circuitry
SIM – integrated circuit card that stores the identity
information of subscriber
Battery- usually Li-ion, the power unit of the phone
13. Setting up a call process
When powered on, the phone does not have a frequency/
time slot assigned to it yet; so it scans for the control
channel of the BTS and picks the strongest signal
then it sends a message (including its identification number)
to the BTS to indicate its presence
the BTS sends an acknowledgement message back to the
cell phone
the phone then registers with the BTS and informs the BTS
of its exact location
after the phone is registered to the BTS, the BTS assigns a
channel to the phone and the phone is ready to receive or
make calls
14. Making a call process
The subscriber dials the receiver’s number and sends it to the BTS
the BTS sends to its BSC the ID, location and number of the caller and
also the number of the receiver
the BSC forwards this information to its MSC
the MSC routes the call to the receiver’s MSC which is then sent to the
receiver’s BSC and then to its BTS
the communication with the receiver’s cell phone is established
15. Receiving a call process
When the receiver’s phone is in an idle state it listens for the control channel of its
BTS
if there is an incoming call the BSC and BTS sends a message to the cells in the
area where the receiver’s phone is located
the phone monitors its message and compares the number from the message with
its own
if the numbers matches the cell phone sends an acknowledgement to the BTS
after authentication, the communication is established between the caller and the
receiver.
16. Authentication Center (AuC)
It is a database that stores the list of authorized subscribers of a GSM
network
it is linked to the MSC and checks the identity of each user trying to
connect also provides encryption parameters to secure a call made in
the network
19. GSM Control Channel
Time Division Multiple Access (TDMA)
Code Division Multiple Access (CDMA)
Frequency Division Multiple Access (FDMA)
20. TDMA
TDMA allows several users to share the same frequency
channel by dividing the signal into different time slots.
The user transmit in rapid succession, one after the other,
each using its own time slot.
21. CDMA
Each subscriber is assigned a code which is used to multiply
the signal sent or received by the subscriber
22. FDMA
In FDMA process, the total frequency band is divided into
number of small sub-bands. In which each band is used by one
user
23. GSM
Global System for Mobile Communication
GSM operate in frequency bands: 900MHz, 1800 MHz,
1900 MHz
GSM provides voice and data services
SIM
a memory card (integrated circuit) holding identity
information, phone book etc.
GSM system support SIM cards
other systems, like CDMA do not support SIM cards, but
have something similar called Re-Usable Identification
Module (RUIM)
24. Cellular services
Voice communication
Short Messaging Service (SMS)
Multimedia Messaging Service (MMS)
Global Positioning System (GPS)
Wireless Application Protocol (WAP) – to access the
Internet
Security (PIN)
25. Conclusion
The development of Cellular Communication is the
first step towards a true personal communication
system that will allow communication anywhere,
anytime, and with anyone.
26. Reference
M. Mouly and M.-B.
Pautet, The Cellular
Communications, 1992.
M. Mouly and M.-B.
Pautet, GSM Protocol
Architecture: Radio Sub-system
Signalling, IEEE 41st
Vehicular Technology
Conference, 1991.