This document discusses multiple access techniques for wireless communications, including FDMA, TDMA, and CDMA. It provides details on how each technique works and its advantages and disadvantages. FDMA divides the frequency band into channels that can be assigned to individual users. TDMA divides each channel into time slots that can be assigned to users. CDMA allows all users to use the whole available bandwidth simultaneously by using unique codes to distinguish users.
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.
Wireless communication is the transfer of information between two or more points that are not connected by an electrical conductor.
The most common wireless technologies use radio
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.
Wireless communication is the transfer of information between two or more points that are not connected by an electrical conductor.
The most common wireless technologies use radio
This presentation based on TDMA technology,How it works,comparison between TDMA,FDMA,CDMA,Advantages and disadvantages of TDMA,Synchronization of TDMA and Evolution of TDMA
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2. FDMA
Frequency division multiple access
FDMA is the division of the frequency band
allocated for wireless cellular telephone
communication into channels
FDMA in Analogue Advanced Mobile Phone
System (AMPS)
The Digital-Advanced Mobile Phone Service (D-
AMPS) also uses FDMA but adds time division
multiple access (TDMA)
Each channel can be assigned to only one user
at a time.
3. FDMA is a
method that lets
more than one
user to share a
single radio
frequency
spectrum. This is
done by
assigning active
users a different
frequency
channel.
FDMA puts each
call on a separate
frequency.
5. Between the different used frequency channels
is a small amount of bandwidth not used. This
space is called a guard band.
This bandwidth is necessary to cater for
instability of the sender, frequency shifts due to
movement (the Doppler effect) and no-ideal
filtering.
GUARD BANDS
6. MAIN FEATURES
Continuous transmission
Narrow bandwidth
Low overhead
Simple hardware at mobile unit and BS : (1) no digital
processing needed (2) ease of framing and synchronization.
FDMA can be used with both analogue and digital signal.
FDMA requires high-performing filters in the radio hardware,
in contrast to TDMA and CDMA.
FDMA is not vulnerable to the timing problems that TDMA
has.
Due to the frequency filtering, FDMA is not sensitive to near-
far problem.
7. All channels in a cell are
available to all the mobiles.
Channel assignment is
carried out on a first-come
first- served basis.
The number of channels,
given a frequency
spectrum BT , depends on
the modulation technique
and the guard bands
between the channels.
These guard bands can
be used to minimize
adjacent channel
interference.
CHANNEL
ASSIGNMENT
8. If channel is not in use, it sits idle
Channel bandwidth is relatively narrow (30kHz)
Simple algorithmically, and from a hardware standpoint
Fairly efficient when the number of stations is small and
the traffic is uniformly constant
Capacity increase can be obtained by reducing the
information bit rate and using efficient digital code
No need for network timing
No restriction regarding the type of baseband or type of
modulation
ADVANTAGE
S
9. DISADVANTAGES
The presence of guard bands
Requires right RF filtering to minimize adjacent
channel interference
Maximum bit rate per channel is fixed
Small inhibiting flexibility in bit rate capability
Does not differ significantly from analog system
10. TDMA
TDMA : Time Division Multiple Access.
TDMA is digital transmission technology that allows a
number of users to access a single radio-frequency (RF)
channel without interference by allocating unique time
slots to each user within each channel.
TDMA divides each cellular channel into three time slots
in order to increase the amount of data that can be
carried.
11. TDMA
The reason for choosing
TDMA for all standards was that
it enables some vital features for
system operation in an
advanced cellular or PCS
environment.
TDMA relies upon the fact that
the audio signal has been
digitized i-e divided into a
number of milliseconds-long
packets. It allocates a single
frequency channel for a short
time and then moves to another
channel.
12. SYNCHRONIZATION IN TDMA
“CLOCK” is required for TDMA.
All transmitters and receivers must be aware of this ``clock'' to schedule
their transmissions and receptions and transmissions are synchronized.
In cellular telephone systems a clock signal indicates the beginning of time-
slots is transmitted by the base stations. From this signals, mobile stations
can determine when their turn comes up.
14. MAIN FEATURES
Shares single carrier frequency with multiple
users.
Non-continuous transmission. This results in low
battery consumption since the subscriber
transmitter can be turned OFF when not in use.
Slots can be assigned on demand in dynamic
TDMA.
15. MAIN FEATURES
TDMA uses different time slots for Tx and Rx, thus
duplexers are not required.
Global Systems for Mobile communications (GSM) uses
the TDMA technique.
16. ADVANTAGES
1. It carry data rates of 64 kbps to 120 Mbps .
2. It provides the user with extended battery life and talk
time.
3. It is the most cost effective technology to convert an
analogue system to digital.
4. TDMA technology separates users according to time, it
ensures that there will be no interference
5. TDMA allows the operator to do services like fax, voice
band data, and SMS as well as bandwidth-intensive
application such as multimedia and videoconferencing.
17. DISADVANTAGES
1. Each user has a predefined
time slot.When moving from
one cell to other, if all the
time slots in this cell are full
the user might be
disconnected.
2. It is subjected to multipath
distortion. A signal coming
from a tower to a handset
might come from any one of
several directions. It might
have bounced off several
different buildings before
arriving.
18. CDMA
There is no restriction on time and frequency in this scheme.
Parallel communication without collision and whole bandwidth
can be used
Users are separated by code not by time slot and frequency slot
19. CDMA ANALOGY
10 people in a room.
5 speak English, 2 speak Spanish, 2 speak
Chinese, and 1 speaks Russian.
Everyone is talking at relatively the same
time over the same medium – the air.
Who can listen to whom and why?
Who can’t you understand?
Who can’t speak to anyone else?
24. 24
ADVANTAGES
Potentially larger capacity (more users can communicate
simultaneously)
If users don’t use the medium all the time (e.g., they are just reading e-
mail), CDMA will allow much more users to communicate
simultaneously. In other words, CDMA will use the resource (the radio
spectrum) more efficiently.
Provides larger spread spectrum, thus more robust against noise bursts and
multipath frequency selective fading
GSM bandwidth = 200 kHz
IS-95 bandwidth = 1.25 MHz
W-CDMA (3G) bandwidth = 10MHz
The transition from one BS to another (handoff) is not abrupt, as in TDMA, and
provides better quality
No absolute limit on the number of users
Easy addition of more users
Impossible for hackers to decipher the code sent
Better signal quality
25. DISADVANTAGES
As the number of users increases, the overall
quality of service decreases
Self-jamming
Near- Far- problem arises