OFDMA.ppt
ziadqais
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Jul 31, 2023
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About This Presentation
OFDMA Concept
Slide Content
Orthogonal Frequency Division
Multiple Access
(OFDMA)
Khaja Mohammad Shazzad
Multiple Access
(OFDMA)
Khaja Mohammad Shazzad
2
Outline
1.Background
Multiple Access (MA) Methods
2.Orthogonal Frequency Division Multiplexing
(OFDM) Based Multiple Access (OFDMA)
Orthogonality Principle
OFDM
OFDM-FDMA
3.Advantages and Disadvantages of OFDMA
4.Conclusion
Outline
1.Background
Multiple Access (MA) Methods
2.Orthogonal Frequency Division Multiplexing
(OFDM) Based Multiple Access (OFDMA)
Orthogonality Principle
OFDM
OFDM-FDMA
3.Advantages and Disadvantages of OFDMA
4.Conclusion
Multiple Access (MA)
General wireless cellular systems are multi-users
systems
Radio resource are limited
–Limited Bandwidth
–Limited number of channels
The radio resource must be shared among multiple
users
Multiple Access Control (MAC) needed
–Contention-based
–Non-contention-based
General wireless cellular systems are multi-users
systems
Radio resource are limited
–Limited Bandwidth
–Limited number of channels
The radio resource must be shared among multiple
users
Multiple Access Control (MAC) needed
–Contention-based
–Non-contention-based
4
Contention-based
Multiple Access(MA)
Contention-based
–Each terminal transmits in a decentralized way
–No central controller (Base stations or access points)
–Example:
ALOHA
Carrier Sensing Multiple Access (CSMA)
Standard:
–GSM [l] uses the slotted ALOHAin the terminal’s initial
access process
–IEEE 802.11 uses CSMA/CAbased contention access
scheme
Contention-based
Multiple Access(MA)
Contention-based
–Each terminal transmits in a decentralized way
–No central controller (Base stations or access points)
–Example:
ALOHA
Carrier Sensing Multiple Access (CSMA)
Standard:
–GSM [l] uses the slotted ALOHAin the terminal’s initial
access process
–IEEE 802.11 uses CSMA/CAbased contention access
scheme
Non-contention-based
Multiple Access (MA)
A logic controller (BS or AP) is needed to
coordinate the transmissions of all the terminals
The controller informs each device when and on
which channel it can transmit
Collisions can be avoided entirely
Two Subdivisions
1.Non-channelization
2.Channelization
Multiple Access (MA)
A logic controller (BS or AP) is needed to
coordinate the transmissions of all the terminals
The controller informs each device when and on
which channel it can transmit
Collisions can be avoided entirely
Two Subdivisions
1.Non-channelization
2.Channelization
Non-channelization
Non-contention-based MA
Terminals transmit sequentially using the same
channel
Example:
–Polling based medium access
Standard:
–IEEE 802.15(WPAN)
–IEEE 802.11(WLAN)
Non-contention-based MA
Terminals transmit sequentially using the same
channel
Example:
–Polling based medium access
Standard:
–IEEE 802.15(WPAN)
–IEEE 802.11(WLAN)
Channelization
Non-contention-based MA
Terminals transmit simultaneously using different
channels
Most commonly used protocols in cellular systems
Example:
–1. Time Division Multiple Access (TDMA)
–2. Code Division Multiple Access( CDMA)
–1. Frequency Division Multiple Access (FDMA)
Standard
–1. GSM (TDMA)
–2. IS-95 (CDMA)
–3. American Mobile Phone System, AMPS (FDMA)
Non-contention-based MA
Terminals transmit simultaneously using different
channels
Most commonly used protocols in cellular systems
Example:
–1. Time Division Multiple Access (TDMA)
–2. Code Division Multiple Access( CDMA)
–1. Frequency Division Multiple Access (FDMA)
Standard
–1. GSM (TDMA)
–2. IS-95 (CDMA)
–3. American Mobile Phone System, AMPS (FDMA)
8
Time Division Multiple Access
(TDMA)
GSM
–Time slot 0.577 ms
–Frame 4.6 ms
–8 time slots per frame
–Frequency band 20 KHz
Time Division Multiple Access
(TDMA)
GSM
–Time slot 0.577 ms
–Frame 4.6 ms
–8 time slots per frame
–Frequency band 20 KHz
Code Division Multiple Access
(CDMA)
IS-95
–Orthogonal Walsh codes
–64 codes (channels)
–One pilot channel
–Seven paging channels
–55 traffic channels
–Each carrier 1.25 MHz
(CDMA)
IS-95
–Orthogonal Walsh codes
–64 codes (channels)
–One pilot channel
–Seven paging channels
–55 traffic channels
–Each carrier 1.25 MHz
Frequency Division Multiple Access
(FDMA)
American Mobile Phone
System (AMPS)
–Total Bandwidth 25 MHz
–Each Channel 30 KHz
(FDMA)
American Mobile Phone
System (AMPS)
–Total Bandwidth 25 MHz
–Each Channel 30 KHz
Orthogonal Frequency Division
Multiplexing (OFDM) Based Multiple
Access (OFDMA)
Orthogonality Principle
OFDM
OFDM-FDMA
Multiplexing (OFDM) Based Multiple
Access (OFDMA)
Orthogonality Principle
OFDM
OFDM-FDMA
12
Orthogonality Principle
Vector space
–A, Band Cvectors in
space are orthogonal to
each other
–A.B=B.C=C.A=0
–(A+B+C).A=(mod A)^2
–(A+B+C).B=(mod B)^2
–(A+B+C).C=(mod C)^2
A
B
C
Orthogonality Principle
Vector space
–A, Band Cvectors in
space are orthogonal to
each other
–A.B=B.C=C.A=0
–(A+B+C).A=(mod A)^2
–(A+B+C).B=(mod B)^2
–(A+B+C).C=(mod C)^2
A
B
C
Orthogonality Principlecont..
Real Function space 0)()(
)cos()(
)sin()(
0)()(
)cos()(
)sin()(
21
2
1
dttftf
nwtNtf
mwtMtf
dttftf
wtBtf
wtAtf
n
T
m
n
m
T
Real Function space 0)()(
)cos()(
)sin()(
0)()(
)cos()(
)sin()(
21
2
1
dttftf
nwtNtf
mwtMtf
dttftf
wtBtf
wtAtf
n
T
m
n
m
T
Orthogonality Principlecont.. )2sin()sin()( wtwttf
T
0
0s(nwt)dtsin(mwt)co
nmwhere
T
0
0n(nwt)dtsin(mwt)si
Νm.n
Here mwand nware called
m-thand n-thharmonics of
w respectively
T
0
0s(nwt)dtsin(mwt)co
nmwhere
T
0
0n(nwt)dtsin(mwt)si
Νm.n
Here mwand nware called
m-thand n-thharmonics of
w respectively
15
Orthogonal Frequency Division
Multiplexing(OFDM)
It is a special kind of FDM
The spacing between carriers are such that
they are orthogonal to one another
Therefore no need of guard band between
carriers.
One example makes the thing clear
Orthogonal Frequency Division
Multiplexing(OFDM)
It is a special kind of FDM
The spacing between carriers are such that
they are orthogonal to one another
Therefore no need of guard band between
carriers.
One example makes the thing clear
Example of OFDM
Lets we have following information bits
–1, 1, -1, -1, 1, 1, 1, -1, 1, -1, -1, -1, -1, 1, -1, -1, …
Just converts the serials bits to parallel bits
C1 C2 C3 C4
1 1 -1 -1
1 1 1 -1
1 -1 -1 -1
-1 1 -1 -1
-1 1 1 -1
-1 -1 1 1
Lets we have following information bits
–1, 1, -1, -1, 1, 1, 1, -1, 1, -1, -1, -1, -1, 1, -1, -1, …
Just converts the serials bits to parallel bits
C1 C2 C3 C4
1 1 -1 -1
1 1 1 -1
1 -1 -1 -1
-1 1 -1 -1
-1 1 1 -1
-1 -1 1 1
Example of OFDM cont..
Modulated signal for C1 Modulated signal for C2
Modulated signal for C3
Modulated signal for C4
Modulate each column with corresponding sub-carrier using BPSK
Modulated signal for C1 Modulated signal for C2
Modulated signal for C3
Modulated signal for C4
Modulate each column with corresponding sub-carrier using BPSK
Example of OFDM cont..
Final OFDM Signal = Sum of all signal )2sin()()(
1
0
nttItV
N
n
n
Generated OFDM signal, V(t)
V(t)
Final OFDM Signal = Sum of all signal )2sin()()(
1
0
nttItV
N
n
n
Generated OFDM signal, V(t)
V(t)
OFDM-FDMA (OFDMA)
Each terminal occupies
a subset of sub-carriers
Subset is called an
OFDMA traffic channel
Each traffic channel is
assigned exclusively to
one user at any time user1
user2
user3
user4
Each terminal occupies
a subset of sub-carriers
Subset is called an
OFDMA traffic channel
Each traffic channel is
assigned exclusively to
one user at any time user1
user2
user3
user4
OFDM-FDMA (OFDMA)
The IEEE 802.16e/ WiMax use OFDMA as
Multiple access technique
–Bandwidth options 1.25, 5, 10, or 20 MHz
–Entire bandwidth divided into 128, 512, 1024 or
2048 sub carriers
–20 MHz bandwidth with 2048 sub carriers has 9.8
KHz spacing between sub carriers
The IEEE 802.16e/ WiMax use OFDMA as
Multiple access technique
–Bandwidth options 1.25, 5, 10, or 20 MHz
–Entire bandwidth divided into 128, 512, 1024 or
2048 sub carriers
–20 MHz bandwidth with 2048 sub carriers has 9.8
KHz spacing between sub carriers
OFDM-FDMA (System View)
22
Advantages of OFDMA
Multi-user Diversity
–broadband signals experience frequency selective
fading
–OFDMA allows different users to transmit over
different portions of the broadband spectrum (traffic
channel)
–Different users perceive different channel qualities,
a deep faded channel for one user may still be
favorable to others
Advantages of OFDMA
Multi-user Diversity
–broadband signals experience frequency selective
fading
–OFDMA allows different users to transmit over
different portions of the broadband spectrum (traffic
channel)
–Different users perceive different channel qualities,
a deep faded channel for one user may still be
favorable to others
Advantages of OFDMA cont..
Multi-user Diversity
Multi-user Diversity
Advantages of OFDMA cont..
Efficient use of Spectrum
4/3 Hz per symbol
6/5 Hz per symbol
Efficient use of Spectrum
4/3 Hz per symbol
6/5 Hz per symbol
Advantages of OFDMA cont..
Receiver Simplicity
–It eliminates the intra-cell interference avoiding
CDMA type of multi-user detection
–Orthogonality of code destroyed by selective
fading
–Only FFT processor is required
Bit Error Rate performance is better only in Fading
environment
Receiver Simplicity
–It eliminates the intra-cell interference avoiding
CDMA type of multi-user detection
–Orthogonality of code destroyed by selective
fading
–Only FFT processor is required
Bit Error Rate performance is better only in Fading
environment
Disadvantages of OFDMA
Peak to average power
ratio (PAPR) avgP
tx
PAPR
2
)(
The large amplitude variation increases in-band noise and
increases the BER when the signal has to go through amplifier
nonlinearities.
Peak to average power
ratio (PAPR) avgP
tx
PAPR
2
)(
The large amplitude variation increases in-band noise and
increases the BER when the signal has to go through amplifier
nonlinearities.
27
Disadvantages of OFDMA cont..
Synchronization
–Tight Synchronization between users are
required for FFT in receiver
–Pilot signals are used for synchronizations
Co-channel interference
–Dealing with this is more complex in OFDM than in CDMA
–Dynamic channel allocation with advanced
coordination among adjacent base stations
Disadvantages of OFDMA cont..
Synchronization
–Tight Synchronization between users are
required for FFT in receiver
–Pilot signals are used for synchronizations
Co-channel interference
–Dealing with this is more complex in OFDM than in CDMA
–Dynamic channel allocation with advanced
coordination among adjacent base stations
28
Research issues and Conclusion
Future works
–Peak-to-average power reduction in OFDM
–Timing and Frequency Synchronization
–Efficient digital signal processing Implementation of OFDM
–Multiple input/Multiple output (MIMO) OFDM
Conclusion
–Different variations of OFDMA are proposed and
have different pros and cons
Research issues and Conclusion
Future works
–Peak-to-average power reduction in OFDM
–Timing and Frequency Synchronization
–Efficient digital signal processing Implementation of OFDM
–Multiple input/Multiple output (MIMO) OFDM
Conclusion
–Different variations of OFDMA are proposed and
have different pros and cons
Thank You
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