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Department of electrical and computer engineering. An Equalization Technique for High Rate OFDM Systems Mehdi Basiri. Introduction:. In a typical OFDM system, a guard interval using cyclic prefix is inserted to avoid the ISI & ICI. - PowerPoint PPT PresentationTRANSCRIPT
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Department of electrical and computer engineering
An Equalization Technique for High Rate OFDM Systems
Mehdi Basiri
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Introduction:
In a typical OFDM system, a guard interval using cyclic prefix is inserted to avoid the ISI & ICI.
The cyclic prefix is the insertion of the last Ng samples to the original sample sequence, where Ng is the length of the guard interval.
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Introduction(cont.): This method is very simple, but it reduces the
transmission efficiency.
The reduction factor is :
where N is the number of the sub-carriers.
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Introduction(cont.): The solution is a time domain equalizer (TEQ) in cascade with the original channel to shorten the
effective channel impulse response to be in the range of the guard interval.
Many TEQ algorithms have been proposed based on different optimum criteria.
However for the 54Mbps IEEE 802.11a OFDM system, most of the popular TEQ algorithms are not suitable.
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Introduction(cont.): This paper :
propose a time domain equalization technique for the high rate IEEE 802.11a OFDM system, which has a comparatively reduced computational complexity for a practical use.
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System model:
Sequence of X (k) is the modulated data of the sub-carriers
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System model(cont.):
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System model(cont.):
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TEQ Algorithms:The main approaches is :
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TEQ Algorithms:
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A. Minimum Mean Square Error (MMSE) Algorithm
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B. Maximum Shortening Signal to Noise Ratio (MSSNR) Algorithm
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Proposed TEQ Algorithm
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Proposed TEQ Algorithm(cont.)
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Proposed TEQ Algorithm(cont.)
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Proposed TEQ Algorithm(cont.)
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Proposed TEQ Algorithm(cont.)
so that:
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Proposed TEQ Algorithm(cont.)
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Proposed TEQ Algorithm(cont.)
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Proposed TEQ Algorithm(cont.)
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Proposed TEQ Algorithm(cont.)
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Computational complexity:
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Simulation Results:System model
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Simulation Results:Functionality validation of the TEQ
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Simulation Results: System performances with different length of cyclic prefix
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Simulation Results:Simulation results for system BER performance
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Simulation Results:Simulation results with different orders of the FIR to
implement the TEQ
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Simulation Results:Bit error rate with estimated and ideal channels
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: ConclusionsThe most popular algorithms used to design
TEQ (the MMSE, the MSSNR) are discussed in this presentation.
A reduced computational complexity TEQ algorithm is proposed.
Simulation results verify the functionality of the proposed algorithm.
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Thanks For Your Attention