Wireless and mobile communication transmits voice and data using electromagnetic waves. It uses frequencies between 300 kHz to 300 GHz, with different technologies operating at different frequency bands. Wireless communication allows transmission of information between moving stations, enabling applications such as mobile phones and wireless networking.
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.
Universal mobile telecommunication System (UMTS) is actually the third generation mobile, which uses WCDMA. The Dream was that 2G and 2.5G systems are incompatible around the world.
-Worldwide devices need to have multiple technologies inside of them, i.e. tri-band phones, dual-mode phones
To develop a single standard that would be accepted around the world.
-One device should be able to work anywhere.
Increased data rate.
- Maximum 2048Kbps
UMTS is developed by 3GPP (3 Generation Partnership Project) a joint venture of several organization
3G UMTS is a third-generation (3G): broadband, packet-based transmission of text, digitized voice, video, multimedia at data rates up to 2 Mbps
Also referred to as wideband code division multiple access(WCDMA)
Allows many more applications to be introduce to a worldwide
Also provide new services like alternative billing methods or calling plans.
The higher bandwidth also enables video conferencing or IPTV.
Once UMTS is fully available, computer and phone users can be constantly attached to the Internet wherever they travel and, as they roam, will have the same set of capabilities.
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.
Universal mobile telecommunication System (UMTS) is actually the third generation mobile, which uses WCDMA. The Dream was that 2G and 2.5G systems are incompatible around the world.
-Worldwide devices need to have multiple technologies inside of them, i.e. tri-band phones, dual-mode phones
To develop a single standard that would be accepted around the world.
-One device should be able to work anywhere.
Increased data rate.
- Maximum 2048Kbps
UMTS is developed by 3GPP (3 Generation Partnership Project) a joint venture of several organization
3G UMTS is a third-generation (3G): broadband, packet-based transmission of text, digitized voice, video, multimedia at data rates up to 2 Mbps
Also referred to as wideband code division multiple access(WCDMA)
Allows many more applications to be introduce to a worldwide
Also provide new services like alternative billing methods or calling plans.
The higher bandwidth also enables video conferencing or IPTV.
Once UMTS is fully available, computer and phone users can be constantly attached to the Internet wherever they travel and, as they roam, will have the same set of capabilities.
hey!!!!! everybody dats was simple ppt on mobile computing as u all aware dat d world is not stationary things are getting change technology is rocking all over so lets get into in it
and plz. dont forget to comment on my work weather u lik or not
2.Cellular Networks_The final stage of connectivity is achieved by segmenting...JeyaPerumal1
A cellular network, frequently referred to as a mobile network, is a type of communication system that enables wireless communication between mobile devices. The final stage of connectivity is achieved by segmenting the comprehensive service area into several compact zones, each called a cell.
History, Basic concepts of wireless communication, challenges in wireless communication, cellular communication, performance criteria, wireless communication standars, how call is made?
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
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This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
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An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
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Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
This slides describes the basic concepts of ICT, basics of Email, Emerging Technology and Digital Initiatives in Education. This presentations aligns with the UGC Paper I syllabus.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
Andreas Schleicher presents at the OECD webinar ‘Digital devices in schools: detrimental distraction or secret to success?’ on 27 May 2024. The presentation was based on findings from PISA 2022 results and the webinar helped launch the PISA in Focus ‘Managing screen time: How to protect and equip students against distraction’ https://www.oecd-ilibrary.org/education/managing-screen-time_7c225af4-en and the OECD Education Policy Perspective ‘Students, digital devices and success’ can be found here - https://oe.cd/il/5yV
Ethnobotany and Ethnopharmacology:
Ethnobotany in herbal drug evaluation,
Impact of Ethnobotany in traditional medicine,
New development in herbals,
Bio-prospecting tools for drug discovery,
Role of Ethnopharmacology in drug evaluation,
Reverse Pharmacology.
How to Split Bills in the Odoo 17 POS ModuleCeline George
Bills have a main role in point of sale procedure. It will help to track sales, handling payments and giving receipts to customers. Bill splitting also has an important role in POS. For example, If some friends come together for dinner and if they want to divide the bill then it is possible by POS bill splitting. This slide will show how to split bills in odoo 17 POS.
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Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
2. • Transmitting voice and data using
electromagnetic waves in open space
• Electromagnetic waves
• Travel at speed of light (c = 3x108 m/s)
• Has a frequency (f) and wavelength ( )
» c = f x
• Higher frequency means higher energy photons
• The higher the energy photon the more penetrating is
the radiation
4. Wavelength of Some Technologies
• GSM Phones: (Global System for Mobile)
– frequency ~= 900 MHz
– wavelength ~= 33cm
• PCS Phones (Personal communication System)
– frequency ~= 1.8 GHz
– wavelength ~= 17.5 cm
• Bluetooth:
– frequency ~= 2.4GHz
– wavelength ~= 12.5cm
5. Frequency Carries/Channels
– The information from sender to receiver is carrier
over a well defined frequency band.
• This is called a channel
– Each channel has a fixed frequency bandwidth (in
KHz) and Capacity (bit-rate)
– Different frequency bands (channels) can be used
to transmit information in parallel and
independently.
6. Example
– Assume a spectrum of 90KHz is allocated over a base
frequency b for communication between stations A and B
– Assume each channel occupies 30KHz.
– There are 3 channels
– Each channel is simplex (Transmission occurs in one way)
– For full duplex communication:
» Use two different channels (front and reverse channels)
» Use time division in a channel
Channel 1 (b - b+30)
Channel 2 (b+30 - b+60)
Channel 3 (b+60 - b+90)
Station A Station B
7. Simplex Communication
• Normally, on a channel, a station can transmit
only in one way.
• This is called simplex transmision
• To enable two-way communication (called full-
duplex communication)
• We can use Frequency Division Multiplexing
• We can use Time Division Multiplexing
8. Duplex Communication - FDD
• FDD: Frequency Division Duplex
Base Station
B
Mobile
Terminal
M
Forward Channel
Reverse Channel
Forward Channel and Reverse Channel use different frequency
bands
9. Duplex Communication - TDD
• TDD: Time Division Duplex
A singe frequency channel is used. The channel is divided into time
slots. Mobile station and base station transmits on the time slots
alternately.
Base Station
B
Mobile
Terminal
M
M B M B M B
10. Example - Frequency Spectrum Allocation in
U.S. Cellular Radio Service
991 992 … 1023 1 2 … 799 991 992 … 1023 1 2 … 799
824-849 MHz 869-894 MHz
Reverse Channel Forward Channel
Channel Number Center Frequency (MHz)
Reverse Channel 1 <=N <= 799
991 <= N <= 1023
Forward Channel 1 <=N <= 799
991 <= N <= 1023
0.030N + 825.0
0.030(N-1023) + 825.0
0.030N + 870.0
0.030(N-1023) + 870.0
(Channels 800-990 are unused)
Channels (Forward and Reverse) are separated by is 45 MHz
11. What is Mobility
• Initially Internet and Telephone Networks is
designed assuming the user terminals are
static
• No change of location during a call/connection
• A user terminals accesses the network always from a
fixed location
• Mobility and portability
– Portability means changing point of attachment to
the network offline
– Mobility means changing point of attachment to
the network online
12. Degrees of Mobility
• Walking Users
• Low speed
• Small roaming area
• Usually uses high-bandwith/low-latency access
• Vehicles
• High speeds
• Large roaming area
• Usually uses low-bandwidth/high-latency access
• Uses sophisticated terminal equipment (cell phones)
13. The Need for Wireless/Mobile
Networking
• Demand for Ubiquitous Computing
– Anywhere, anytime computing and
communication
• You don’t have to go to the lab to check your email
– Pushing the computers more into background
• Focus on the task and life, not on the computer
• Use computers seamlessly to help you and to make
your life more easier.
– Computers should be location aware
• Adapt to the current location, discover services
14. Some Example Applications of
Ubiquitous Computing
• You walk into your office and your computer
automatically authenticates you through your
active badge and logs you into the Unix
system
• You go to a foreign building and your (Personal
Digital Assistant) PDA automatically discovers
the closest public printer where you can print
your schedule and give to your friend
15. What is PCS
• Personal Communication Services
– A wide variety of network services that includes
wireless access and personal mobility services
– Provided through a small terminal
– Enables communication at any time, at any place,
and in any form.
• The market for such services is tremendously
big
– Think of cell-phone market
16. Several PCS systems
• High-tier Systems
– GSM: Global System for Mobile Communications
• The mobile telephony system that we are using
– IS-136 (Interim State)
• USA digital cellular mobile telephony system
• TDMA based multiple access
– Personal Digital Cellular
– IS-95 cdmaOne System
• CDMA based multiple access
17. Several PCS systems
• Low-tier systems
– Residential, business and public cordless access
applications and systems
• Cordless Telephone 2 (CT2)
• Digital Enhanced Cordless Telephone (DECT)
• Personal Access Communication Systems (PACS)
• Personal Handy Telephone System (PHS)
18. Several PCS systems
• Wideband wireless systems
– For Internet access and multimedia transfer
• Cdma2000
• W-CDMA, proposed by Europe
• SCDMA, proposed by Chine/Europe
19. Several PCS systems
• Other PCS Systems
– Special data systems
• CDPD: Cellular Digital Packet Data
• RAM Mobile Data
• Advanced Radio Data Information System (ARDIS)
– Paging Systems
– Mobile Satellite Systems
• LEO, MEO, HEO satellites for data/voice
– ISM band systems: Bluetooth, 802.11, etc.
20. PCS Problems
• How to integrate mobile and wireless users to
the Public Switched Telephone Network
(PSTN) (Voice Network)
• Cellular mobile telephony system
• How to integrate mobile and wireless users to
the Internet (Data Network)
• Mobile IP, DHCP, Cellular IP
• How to integrate all of them together and also
add multimedia services (3G Systems)
21. InternetPSTN
(Telephone Network)
Looking to PCS from different
Angles
Mobile Users
-Cell phone users
-Cordless phone users
Mobile Users
-Laptop users
-Pocket PC users
-Mobile IP, Dynamic Host Configurat
computers
Wireless Access
Telecom People View Data Networking People View
22. Very Basic Cellular/PCS Architecture
Base Station
(BS) Mobile Station
Base Station
Controller
Mobility
Database
Mobile
Switching
Center
(MSC)
Radio Network
Public Switched
Telephone Network
23. Wireless System Definitions
– Mobile Station
– A station in the cellular radio service intended for use while in
motion at unspecified locations. They can be either hand-held
personal units (portables) or installed on vehicles (mobiles)
– Base station
– A fixed station in a mobile radio system used for radio
communication with the mobile stations. Base stations are
located at the center or edge of a coverage region. They
consists of radio channels and transmitter and receiver
antennas mounted on top of a tower.
24. Wireless System Definitions
– Mobile Switching Center
– Switching center which coordinates the routing of calls in a
large service area. In a cellular radio system, the MSC
connections the cellular base stations and the mobiles to the
PSTN (telephone network). It is also called Mobile Telephone
Switching Office (MTSO)
– Subscriber
– A user who pays subscription charges for using a mobile
communication system
– Transceiver
– A device capable of simultaneously transmitting and receiving
radio signals
25. Wireless System Definitions
– Simplex Systems
– Communication systems which provide only one-way
communication
– Half Duplex Systems
– Communication Systems which allow two-way communication
by using the same radio channel for both transmission and
reception. At any given time, the user can either transmit or
receive information.
– Full Duplex Systems
– Communication systems which allow simultaneous two-way
communication. Transmission and reception is typically on
two different channels (FDD).
26. Wireless System Definitions
– Handoff
– The process of transferring a mobile station from one channel
or base station to an other.
– Roamer
– A mobile station which operates in a service area (market)
other than that from which service has been subscribed.
– Page
– A brief message which is broadcast over the entire service
area, usually in simulcast fashion by many base stations at the
same time.
27. PCS Systems Classification
• Cordless Telephones
• Cellular Telephony (High-tier)
• Wide Area Wireless Data Systems (High-tier)
• High Speed Local and Personal Area Networks
• Paging Messaging Systems
• Satellite Based Mobile Systems
• 3G Systems
28. Major Mobile Radio Standards
USA
Standard Type Year
Intro
Multiple
Access
Frequency
Band
(MHz)
Modulation Channel
BW
(KHz)
AMPS Cellular 1983 FDMA 824-894 FM 30
USDC Cellular 1991 TDMA 824-894 DQPSK 30
CDPD(Cellular
Digital Packet
Data)
Cellular 1993 FH/Packet 824-894 GMSK 30
IS-95
(Interim
standard)
Cellular/PCS 1993 CDMA 824-894
1800-2000
QPSK/BPSK 1250
FLEX( free
Open
source for
web appl)
Paging 1993 Simplex Several 4-FSK 15
DCS-1900
(GSM)
PCS 1994 TDMA 1850-1990 GMSK 200
PACS Cordless/PCS 1994 TDMA/FDMA 1850-1990 DQPSK 300
29. Major Mobile Radio Standards - Europe
Standard Type Year
Intro
Multiple
Access
Frequency
Band
(MHz)
Modulation Channel
BW
(KHz)
ETACS(Ex
tended
total
access
commn
sys
Cellular 1985 FDMA 900 FM 25
NMT-900
(Nordic
mobile
tech
Cellular 1986 FDMA 890-960 FM 12.5
GSM Cellular/PCS 1990 TDMA 890-960 GMSK 200KHz
C-450 Cellular 1985 FDMA 450-465 FM 20-10
ERMES
(European
radio
Paging 1993 FDMA4 Several 4-FSK 25
30. Cordless Telephones
• Characterized by
– Low mobility (in terms of range and speed)
– Low power consumption
– Two-way tetherless (wireless) voice communication
– High circuit quality
– Low cost equipment, small form factor and long talk-time
– No handoffs between base units
• Appeared as analog devices
• Digital devices appeared later with CT2, DECT standards
in Europe and ISM band technologies in USA
31. Cordless Telephones
• Usage
– At homes
– At public places where cordless phone base units
are available
• Design Choices
– Few users per MHz
– Few users per base unit
• Many base units are connected to only one handset
– Large number of base units per usage area
– Short transmission range
32. Cordless Phone
• Some more features
– 32 Kb/s adaptive differential pulse code
modulation (ADPCM) digital speech encoding
– Tx power <= 10 mW
– Low-complexity radio signal processing
– No forward error correction (FEC) or whatsoever.
– Low transmission delay < 50ms
– Simple Frequency Shift Modulation (FSK)
– Time Division Duplex (TDD)
33. Cellular Telephony
• Characterized by
– High mobility provision
– Wide-range
– Two-way tetherless voice communication
– Handoff and roaming support
– Integrated with sophisticated public switched
telephone network (PSTN)
– High transmit power requires at the handsets
(~2W)
34. Cellular Telephony - Architecture
Radio tower
PSTN
Telephone
Network
Mobile Switching
Center
35. Cellular Telephony Systems
• Mobile users and handsets
– Very complex circuitry and design
• Base stations
– Provides gateway functionality between wireless
and wireline links
• Mobile switching centers
– Connect cellular system to the terrestrial
telephone network
36. Cellular Networks
• First Generation
• Analog Systems
• Analog Modulation, mostly FM
• AMPS
• Voice Traffic
• FDMA/FDD multiple access
• Second Generation (2G)
• Digital Systems
• Digital Modulation
• Voice Traffic
• TDMA/FDD and CDMA/FDD multiple access
• 2.5G
• Digital Systems
• Voice + Low-datarate Data
• Third Generation
• Digital
• Voice + High-datarate Data
• Multimedia Transmission also
38. 2G and Data
• 2G is developed for voice communications
• You can send data over 2G channels by using
modem
• Provides a data rates in the order of ~9.6 Kbps
• Increased data rates are requires for internet
application
• This requires evolution towards new systems:
2.5 G
39. 2.5 Technologies
• Evolution of TDMA Systems
– HSCSD (High speed Circuit Switched Data) for 2.5G
GSM
– Up to 57.6 Kbps data-rate
– GPRS (General Packet Radio Services) for GSM and
IS-136
– Up to 171.2 Kbps data-rate
– EDGE (Enhanced Data For Global Evolution) for
2.5G GSM and IS-136
– Up to 384 Kbps data-rate
• Evolution of CDMA Systems
40. 3G Systems
• Goals
– Voice and Data Transmission
• Simultanous voice and data access
– Multi-megabit Internet access
• Interactive web sessions
– Voice-activated calls
– Multimedia Content
• Live music
41. 3G Systems
• Evolution of Systems
• CDMA sysystem evaolved to CDMA2000
» CDMA2000-1xRTT: Upto 307 Kbps
» CDMA2000-1xEV:
» CDMA2000-1xEVDO: upto 2.4 Mbps
» CDMA2000-1xEVDV: 144 Kbps datarate
• GSM, IS-136 and PDC evolved to W-CDMA (Wideband
CDMA) (also called UMTS)
» Up to 2.048 Mbps data-rates
» Future systems 8Mbps
» Expected to be fully deployed by 2010-2015
• New spectrum is allocated for these technologies
43. Issues related to 3G
High input fees for the 3G service licenses.
Inefficient to meet future need of the performance.
Require wide bandwidth.
Lack of coverage because it is still new.
Multiple standard.
44. 4G
Proposed in ITU-2003
>4G- Magic
. Mobile multimedia anytime/anywhere global mobility support
integrated wireless and customized personal service
Hardware-Smart Antennas-
Find tune and turn up signal information
Spectrum-UWB-(Ultra wide band)
45. Features
• Interactive multimedia
•User friendliness
•High speed-1 Gbps for still and 1000 Mbps for user in mobility.
•Network Heterogeneity
•Terminal Heterogeneity
46. Setting up a Call in Cellular Mobile System
When a cell phone is switched on, it scans for the FCC to determine
the strongest strength and monitors it till it drops below a usable level.
It again searches for the strongest signal available.
Control channels are defined and standardized over the entire
geographic area covered and typically it is about 5% of total available
channels in the system .
Due to the standardization, the same phone is capable to be used in
different markets.
MSC dispatches the request to all base stations.
MIN of subscriber is broadcasted as a paging message over all FCC.
The phone receives the message and acknowledges it on the RCC and base station
forwards it to MSC for handshake.
MSC instructs base station to move the call on unused voice channel.
Base station indicates the phone to change it to unused frequency pair and at this
time base station sends a data message to mobile station on the voice channel for
ringing.
(a) Call is made for mobile station
47. From Mobile station
A call initiation request is sent on RCC.
The request consists of its own MIN, ESN and the telephone number of the called party.
Mobile station also sends the station class mark (SCM) to indicate the maximum power level
is for particular user.
Cell base station receives the data and sends it to MSC.
MSC validates the request, makes connection to the called party through PSTN and instructs
base and mobile stations to move to unused voice channel
On Roaming
When a mobile station enters the new service are other than in which it subscribed, it is
registered as roamer and it is done with FCC.
Every several minutes, the MSC issues a global command over each FCC in the system asking
for all mobiles which are previously unregistered to report their MIN and ESN over the RCC.
MSC sends MIN/ESN data to request billing status from the home location register (HLR).
Once registered , mobile allowed to communicate and the billing is routed automatically to
the home service provider