#7 1 Victor S. Frost Dan F. Servey Distinguished Professor Electrical Engineering and Computer...
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#7 1
Victor S. FrostDan F. Servey Distinguished Professor Electrical Engineering and Computer
ScienceUniversity of Kansas2335 Irving Hill Dr.
Lawrence, Kansas 66045Phone: (785) 864-4833 FAX:(785) 864-
7789 e-mail: [email protected]
http://www.ittc.ku.edu/
How to cope with last hop impairments?
Part 4Fading
#7
All material copyright 2006Victor S. Frost, All Rights Reserved
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How to cope with last hop impairments?
• Techniques for coping with noise– Forward error detection/correction coding– Automatic Repeat reQuest (ARQ)– Co-existance or modifications to end-to-end protocols
•Techniques for coping with multipath fading fading mitigation techniques, e.g., – Equalizers– Diversity– RAKE receivers– OFDM
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Equalizers
• Fading can be viewed as transmission through a linear time varying system.
• An equalizer estimates the channel response as a function of time and compensates for the pulse spreading and thus reduces ISI
Channel
Channel changes as a function of time
Equalizer
Channel estimate
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Equalizers
• Equalizers are– Common
• Dial-up modems• Cellular systems
– Often use training signals• A known signal is transmitted• At the receiver the known transmitted signal and the
corresponding distorted waveform are used to estimate the expected channel characteristics
• Assume the channel is “constant” between transmissions of training signals
• Training signals add overhead and reduce efficiency– Can be non-linear
• Equalizers differ in the computational complexity and performance
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Equalizers Diversity
• Equalizers rely on one received waveform
• That maybe in a deep fade• Diversity can provide significant
performance when one of the independent paths are in a deep fade.
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Diversity
Channel 1
Channel i
Channel N
Processing
Detected Bits
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Diversity
• Obtain multiple independent samples of the received signal
• Process the multiple independent samples to reduce the BER
• Independent samples maybe obtained via spatial diversity,– Multiple receive antennas
• Separated on the order of ½ wavelength• MIMO (multiple in/multiple out) uses more
multiple transmit and receive antennas
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Diversity
• Independent samples maybe obtained via frequency diversity,– Same information over different frequency channels– Expands the required bandwidth
• Independent samples maybe obtained via time diversity,– Same information transmitted at different times– For fixed rate this also increases the bandwidth
requirements
• Diversity can provide significant performance inprovement
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RAKE receiver
• With CSMA a bit, lasting Tb sec is divided into N chips of length Tc
• The sequence of the N chips are selected to have a low autocorrelation
• Thus for CDMA the delay profile of the channel provides multiple versions of the transmitted signal at the receiver.
-30 dB
-20 dB
-10 dB
0 dB
0 1 2 5
Pr()
(µs)
Power Delay Profile
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RAKE receiver
• A RAKE receiver estimates the delay and amplitude of the delay profile
• Obtains independent samples • Thus providing a form of time diversity.• Only a few 2-3 samples provide
significant performance improvement• IS-95 cell systems use a RAKE receive in
both the base stations and hand sets
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Rake Receiver
From: W. Stallings, Data and Computer Communications, Pearson, 2006
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Orthogonal Frequency-division Multiplexing-OFDM
• Multicarrier Modulation• Uses a large number of parallel narrow-
band channels, each on a unique sub carrier
• Combats– Multipath– Narrow-band interference
• Problems– Sensitive of frequence and phase noise– Has large Peak-to-average ratio resulting is
inefficient use of power amplifiers
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• Assume for a a base system – Bit rate = R– Channel bandwidth = Nfb @ fc
– Using all the channel bandwidth the bit duration would be 1/R=Tb
• Process the R b/s stream into N streams each at a rate of R/N, now for each stream the symbol time is N/T.
• Note because the symbol time has increased its susceptibility to multi-path induces ISI is decreased
Orthogonal Frequency-division Multiplexing-OFDM
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Orthogonal Frequency-division Multiplexing-OFDM
• The data is “distributed” over the N sub-carriers in a special way, specifically, the frequencies are selected to be orthogonal
• Different types of modulation can be used, e.g., QPSK
• Equalizers may not be needed when using OFDM
From: W. Stallings, Wireless Communications & Networks, Pearson 2005
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Orthogonal Frequency-division Multiplexing-OFDM
• Examples:– IEEE 802.11a uses 52 subcarriers– MMDS uses 512 subcarriers– Powerline systems
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References #7
• W. Stallings, Data and Computer Communications, Pearson, 2006
• W. Stallings, Wireless Communications & Networks, Pearson 2005
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References