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8/3/2019 22-05-0005-00-0000_OFDMA_Tutorial_IEEE802-22_Jan 05
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1Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide1
Tutorial on Multi Access OFDM (OFDMA) Technology
IEEE P802.22 Wireless RANs Date: 2005-01-04
Name Company Address Phone email
Eli Sofer RuncomTechnologies
2 Hachoma St., 75655Rishon Lezion, Israel
+972 3 9528440 [email protected]
Yossi Segal RuncomTechnologies
2, achoma St. 75655Rishon Lezion, Israel
+972 3 952 8440 [email protected]
Authors:
Notice: This document has been prepared to assist IEEE 802.22. It is offered as a basis for discussion and is not binding on the contributing individual(s) or
organization(s). The material in this document is subject to change in form and content after further study. The contributor(s) reserve(s) the right to add, amend or
withdraw material contained herein.
Release: The contributor grants a free, irrevocable license to the IEEE to incorporate material contained in this contribution, and any modifications thereof, in the
creation of an IEEE Standards publication; to copyright in the IEEEs name any IEEE Standards publication even though it may include portions of this contribution; and
at the IEEEs sole discretion to permit others to reproduce in whole or in part the resulting IEEE Standards publication. The contributor also acknowledges and accepts
that this contribution may be made public by IEEE 802.22.
Patent Policy and Procedures: The contributor is familiar with the IEEE 802 Patent Policy and Procedures http://standards.ieee.org/guides/bylaws/sb-bylaws.pdf
including the statement "IEEE standards may include the known use of patent(s), including patent applications, provided the IEEE receives assurance from the patentholder or applicant with respect to patents essential for compliance with both mandatory and optional portions of the standard." Early disclosure to the Working Group of
patent information that might be relevant to the standard is essential to reduce the possibility for delays in the development process and increase the likelihood that the
draft publication will be approved for publication. Please notify the Chair
Carl R. Stevensonas early as possible, in written or electronic form, if patented technology (or technology under patent application) might be incorporated into a draft
standard being developed within the IEEE 802.22 Working Group. If you have questions, contact the IEEE Patent Committee Administrator [email protected].
>
http://standards.ieee.org/guides/bylaws/sb-bylaws.pdfhttp://standards.ieee.org/guides/bylaws/sb-bylaws.pdfmailto:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]:[email protected]://standards.ieee.org/guides/bylaws/sb-bylaws.pdf8/3/2019 22-05-0005-00-0000_OFDMA_Tutorial_IEEE802-22_Jan 05
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2Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide2
Abstract
The contribution presents a tutorial on Multi Access OFDM (OFDMA) technology which has been
endorsed in leading standards such as- ETSI DVB-RCT and IEEE802.16a,d and 16e. Essential
parameters of UpLink and DownLink and simulation results are presented. System capabilities
and advantages are also discussed. The tutorial could offer an insight and understanding of
OFDMA technology to be considered as a candidate for WRAN system
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3Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide3
Tutorial on
Multi Access OFDM (OFDMA)
Technology
Eli Sofer
Runcom Technologies Ltd
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4Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide4
Contents
OFDMA System Architecture
Illustrated Example
OFDMA System Properties
Coverage and Capacity
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5/495Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide5
OFDMA System
Architecture
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6/496Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide6
Duplexing Technique
FDD/TDD
Multiple Access Method
TDMA/OFDMA
OFDM Symbols allocated by TDMASub-Carriers within an OFDM Symbol allocated by OFDMA
Diversity
Frequency, Time, Code (CPE and BS), Space TimeCoding, Antenna Array
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7/497Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide7
FDD (Frequency Division Duplexing ) Uses One Frequency
for the DownLink, and a Second Frequency for theUpLink.
TDD (time Division Duplexing) Uses the same frequency forthe Downlink and the Uplink.
In any configuration the access method is OFDMA/TDMA .
F 2 - F r e q u e n c y b a n d
U p L i n k
F 1 - F r e q u e n c y b a n d
D o w n L i n k
F D D
F 1 - F r e q u e n c y b a n d
U p L i n k
F 1 - F r e q u e n c y b a n d
D o w n L i n k
T D D
Duplexing - Principles
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8/498Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide8
Using OFDMA/TDMA, Sub Channels are allocated in theFrequency Domain, and OFDM Symbols allocated inthe Time Domain.
OFDMA-TDMA Principles
TDMA
TDMA\OFDMA
t
N
m
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9/499Runcom Technologies Ltd.
Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide9
DownLink OFDMA Symbol
Total Frequency Band
Guard Band Guard Band
Symbol PilotsSub-Channel Data Carriers
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Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide10
Burst Structure is defined from one Sub-channel in theFrequency domain and n OFDMA time symbols in thetime domain, each burst consists ofN data modulatedcarriers.
Adaptive Modulation and Coding per Sub-Channel inthe Down-Link
Forward APC controlling (+6dB) (-6dB) digital gainon the transmitted Sub-Channel
Supporting optional Space Time Coding employing
Alamouti STC.
Supporting optional Adaptive Array.
DownLink Specification
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Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide11
FFT size : 2048
Guard Intervals : , 1/8, 1/16, 1/32
Coding Mandatory: concatenated RS GF(256) andConvolutional coding (k=7,G1=171,G2=133, keepingoverall coding rate to = ,
Coding Optional: Convolutional Turbo Code (CTC),Turbo Product Code (TPC) with coding rates close to =,
QPSK, 16QAM, 64QAM modulation
Modulo 4, Pilot based Symbol Structure. 32 Sub-Channels of 48 data carriers each
Example- DownLink Specification
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12Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide12
Downlink Pilot and Data Carriers Allocation Scheme
0 12
symbol
indexn
n+1
L=0
L=2
carrier index
Variable Location Pilot Fixed-location Pilot DataAllocation Key:
n+2 L=1
n+3 L=3
n+4 L=0
time
24 Nused
-1
0 6 18 Nused
-1
0 3 15 Nused
-1
0 9 21 Nused
-1
0N
used -1
30
27
12 24
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13Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide13
Space Time Coding
Tx
diversity
encoder
IFFT DACFilter RF
IFFT DACFilter RF
Subcarrier
modulation
IFFT input
packing
Tx
Rx
RF DAC Filter FFT Diversity
Combiner
Sub-
channel
demod.
Log-
Likelihood
ratios
Decoder
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14Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide14
UpLink OFDMA Symbol
Total Frequency Band
Guard Band Guard Band
Data Carriers
Sub-Channel #1
Pilots Carriers
Sub-Channel #1
Data Carriers
Sub-Channel #x
Pilots Carriers
Sub-Channel #1
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15Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide15
Burst Structure is defined from one Sub-channel in theFrequency domain and 3 OFDMA time symbols in the
time domain, each burst consists of 144 data modulated
carriers.
Adaptive Modulation and Coding per User in theUpLink
User Can be allocated 1 up to 32 Sub-Channels
2 Sub-Channels are used as the Ranging Sub-Channels
for User Ranging and fast Band-Width Request.
Example of UpLink Specification
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16Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide16
FFT size : 2048
Guard Intervals : , 1/8, 1/16, 1/32 Coding Mandatory: concatenated RS GF(256) and
Convolutional coding (k=7,G1=171,G2=133, keepingoverall coding rate to = ,
Coding Optional: Convolutional Turbo Code (CTC),Turbo Product Code (TPC) with coding rates close to= ,
QPSK, 16QAM, 64QAM modulation
Modulo 13, Pilot based Sub-Channel Structure. 32 Sub-Channels of 53 carriers each, 5 carriers used as
pilots, 48 carriers used for data
Example of UpLink Specification
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17Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide17
Example for UpLink Sub-Channel Pilot and
Data Carriers Allocation Scheme
0 13 26 27 40 52
26 28 42150 2 52
symbol
indexn
n+1
L=0
L=2
frequency
Variable Location Pilot Fixed-location Pilot DataAllocation Key:
26 30 44170 4 52
n+2 L=4
26 4936220 9 52
n+11 L=9
26 38 51240 11 52
n+12 L=11
0 13 26 27 40 52
n+13 L=0
time
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18Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide18
Frequency band
1 2 3 30 31 32
block 1
1
2
3
each group contains
53 carriers
All usable carriers are divided into 32 carrier groupsnamed basic group, each main group contains 53 basic
groups.
Using Special Permutations for carrier allocation
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19Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide19
U s e r # 1
T o t a l F r e q u e n c y b a n d
U s e r # 2
G u a r d B a n d G u a r d B a n d
0 5 52 1 2 22 1 0 1
U s e r 1 = 0 ,5 ,2 ,1 0 ,4 ,2 0 ,8 ,1 7 ,1 6 ,1 1 ,9 , 2 2 ,1 8 , 2 1 , 1 3 , 1 9 , 3 , 1 5 , 6 , 7 , 1 2 , 1 4 , 1
U s e r 2 = 2 ,1 0 ,4 ,2 0 ,8 ,1 7 ,1 6 ,1 1 ,9 ,2 2 ,1 8 , 2 1 ,1 3 , 1 9 , 3 , 1 5 , 6 , 7 , 1 2 , 1 4 , 1 , 0 , 5
Carriers are allocated by a basic series and its cyclic permutations
for example: Basic Series:
0,5,2,10,4,20,8,17,16,11,9,22,18,21,13,19,3,15,6,7,12,14,1
After two cyclic permutations we get:
2,10,4,20,8,17,16,11,9,22,18,21,13,19,3,15,6,7,12,14,1,0,5
Using Special Permutations for carrier allocation
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20Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide20
The Carriers of each Sub-Channel are spread all over theusable frequency for best frequency diversity
The allocation by permutation gives an excellent Reuse
factor - almost 1.
The allocation by permutation give an excellent
interference spreading and averaging.
Using Special Permutations for carrier allocation
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21Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide21
The CDMA like synchronization is achieved by allocatingseveral of the usable Sub-Channels for the Ranging
process, the logic unit they consist is called a RangingSub-Channel.
Onto the Ranging Sub-Channel users modulate a Pseudo
Noise (PN) sequence using BPSK modulation The Base Station detects the different sequences and uses
the CIR that he derives from the sequences for:
Time and power synchronization
Decide on the user modulation and coding
Using CDMA like modulation for Ranging
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22Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide22
Aloha vs. CDMA BW request (32 codes) CDMA efficiency is better by a factor of six
CDMA latency is better by a factor of four
DVB-RCT MAC Performance
0 1 2 3 4 5 6 7 8 9 100
0.5
1
1.5
2
2.5
Collision expectation value
SucessfulBWrequestsperslot
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23Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22-05-0005r0
Slide23
Illustrated Example
January 2005 Doc : IEEE802 22-05-0005r0
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24Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22 05 0005r0
Slide24
Subscriber Units at the Current OFDMA Symbol = 3
Sub-Channels Allocated to Subscriber-Unit #1 = 12
Sub-Channels Allocated to Subscriber-Unit #2 = 9
Sub-Channels Allocated to Subscriber-Unit #3 = 6
Number Of New Subscriber-Units Requesting Services = 3
All Subscriber-Units Suffer Different Multi-Paths and
different Attenuation's
Example
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25Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22 05 0005r0
Slide25
Constellation at the Base Station
Example
January 2005 Doc.: IEEE802.22-05-0005r0
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26Runcom Technologies Ltd.Submission Eli Sofer, Runcom
January 2005 Doc.: IEEE802.22 05 0005r0
Slide26
Users Separation
Example
January 2005 Doc.: IEEE802.22-05-0005r0
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27Runcom Technologies Ltd.Submission Eli Sofer, Runcom
y
Slide27
User Estimation
-2 -1 .5 -1 -0 . 5 0 0 .5 1 1 . 5 2
-2
- 1 .5
-1
- 0 .5
0
0. 5
1
1. 5
2
C ons te l la t ion t o E s t iam te
-2 -1 . 5 -1 -0 .5 0 0 .5 1 1 . 5 2
-2
- 1 .5
-1
- 0 .5
0
0. 5
1
1. 5
2
E s tim ate d vec
Example - Results
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28Runcom Technologies Ltd.Submission Eli Sofer, Runcom
y
Slide28
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2
-2
-1.5
-1
-0.5
0
0.5
1
1.5
2
Constellation to Estiamte
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2
-2
-1.5
-1
-0.5
0
0.5
1
1.5
2
Estimated vec
User Estimation
Results
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29Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide29
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2
-2
-1.5
-1
-0.5
0
0.5
1
1.5
2
Constellation to Estiamte
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2
-2
-1.5
-1
-0.5
0
0.5
1
1.5
2
Estimated vec
User Estimation
Results
January 2005 Doc.: IEEE802.22-05-0005r0
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30Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide30
0 20 40 60 80 100 120 1400
50
100
150
200
250
300DespreadingonAll Users
Finding New Subscriber-Units Requesting Services, Using
the Ranging Pilots (CDMA/OFDM Techniques)
Results
January 2005 Doc.: IEEE802.22-05-0005r0
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31Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide31
OFDMA System -
Properties
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32Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide32
I n t e r fe r e n c eU s e r S u b C a r r ie r s
A l lo c a t io n
S u b C a r r ie r s
I n t e r f e r e n c e
S u b C a r r ie r s
N u l l e d
S u b C a r r ie r s
T o t a l F r e q u e n c y b a n d
Narrowband Interference Rejection
Easy to Avoid/Reject Narrowband Dominant Interference . Less Interfered Part of the Carrier Can Still Be Used .
Interference Rejection/Avoidance
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33Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide33
Using shaping on the signal peaks
Limiting the PAPR to a constant value by
vector reduction
PAPR Reduction
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34Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide34
O F D M
S i n g l e C a r r i e r
S c h e m e
4 M H z
- 8 0
F r e q u e n c y( M H z )
d B
Rectangular Spectrum Shape (Brick Wall)
Small Frequency Guard band
Spectrum Properties
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35Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide35
Spectrum Properties
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36Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide36
In OFDM, channel impairment are solved in the same
way Group Delays are solved, by Channel
estimation
Group Delay
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37Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide37
Phase Noise Effect onOFDM
Phase Noise Effect on
S.C
Phase Noise Effects
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38Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide38
Timing Sensitivity
Low timing sensitivity is needed, and simple phase and channel
estimators solve timing problems.
Frequency Sensitivity
solved by locking onto the Base-Station transmission and deriving
the Subscriber Units clocks from it.
Equalization
No Equalizers are needed, channel impairment and timing problems
are both solved with simple phase and channel estimators
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39Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide39
System Coverage and
Capacity
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40Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide40
By allocating different Sub-Channels to different sectors
we can reach reuse factor of 1 with up to 12 sectors(changing the polarity enhances the performance)
HorizontalSub-hannel
s Set 1
F1
Vertical
Sub-hannel
s Set 1
F1Vertical
Sub-hannel
s
Set2
F1
Horizontal
Sub-hann
el
s
Set2
F1
Using Reuse Factor of 1
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41Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide41
Use modulations with various Bit/Hz capabilities asAdaptive N-QAM.
Use Adaptive FEC (Convolutional & Reed-Solomon orTurbo code)
Maximal frequency reuse between cells/sectors (close
to 1). Maximum sectors allocation.
The use of statistical Multiplexing and concentration.
Adaptive Carrier Allocations.
Adaptive Power Control
Capacity
January 2005 Doc.: IEEE802.22-05-0005r0
C
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42Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide42
OFDM Cells
(64 mode)
OFDMA Cell
(2k mode)
64QAM users
16QAM users
QPSK users
Coverage
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43Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide43
Coverage - Simulations
January 2005 Doc.: IEEE802.22-05-0005r0
Coverage Simulations
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44Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide44
Coverage - Simulations
Multi Sector Coverage, 3 Sectors, 3 Frequencies, achieves2.8Bits/s/Hz/Cell, 22.5Mbps/Sector
January 2005 Doc.: IEEE802.22-05-0005r0
Coverage Simulations
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45Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide45
Coverage - Simulations
Multi Sector Coverage, 6 Sectors, 6 Frequencies, achieves2.8Bits/s/Hz/Cell, 22.5Mbps/Sector
January 2005 Doc.: IEEE802.22-05-0005r0
OFDMA Advantages Summary (1
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46Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide46
Averaging interference's from neighboring cells, by using different
basic carrier permutations between users in different cells. Interferences within the cell are averaged by using allocation with
cyclic permutations.
Enables orthogonality in the uplink by synchronizing users in time
and frequency.
Enables Multipath mitigation without using Equalizers and training
sequences.
Enables Single Frequency Network coverage, where coverage
problem exists and gives excellent coverage.
OFDMA Advantages- Summary (1
January 2005 Doc.: IEEE802.22-05-0005r0
OFDMA Advantages Summary (2
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47Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide47
OFDMA Advantages - Summary (2
Enables spatial diversity by using antenna diversity at the Base
Station and possible at the Subscriber Unit. Enables adaptive modulation for every user QPSK, 16QAM,
64QAM and 256QAM.
Enables adaptive carrier allocation in multiplication of 23 carriers =
nX23 carriers up to 1587 carriers (all data carriers). Offers Frequency diversity by spreading the carriers all over the
used spectrum.
Offers Time diversity by optional interleaving of carrier groups in
time.
January 2005 Doc.: IEEE802.22-05-0005r0
OFDMA Advantages Summary (3
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48Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide48
OFDMA Advantages - Summary (3
Using the cell capacity to the utmost by adaptively using
the highest modulation a user can use, this is allowed bythe gain added when less carriers are allocated (up to 18dBgain for 23 carrier allocation instead of 1587 carriers),therefore gaining in overall cell capacity.
The power gain can be translated to distance - 3 times thedistance for R4 and 8 time for R2 for LOS conditions.
Enabling the usage of Indoor Omni Directional antennasfor the users.
MAC complexity is the same as for TDMA systems.
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49Runcom Technologies Ltd.Submission Eli Sofer, RuncomSlide49
OFDMA Advantages - Summary (4
Allocating carrier by OFDMA/TDMA strategy.
Minimal delay per OFDMA symbol of 300sec.
Using Small burst per user of about 100 symbols for better
statistical multiplexing and smaller jitter.
User symbol is several times longer then for TDMAsystems.
Using the FEC to the outmost by error detection of
disturbed frequencies.