evaluating the bit error rate for m-psk
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Evaluating the Bit Error Rate for M-PSK. Presented by: Idris Ajia Assessor: Dr. Tareq Al- Naffouri Date: Saturday, 12 December 2009. Introduction: Importance of Digital Communications. Increasing dependence on Digital Communication. Need for accurate data TX Calculating BER. - PowerPoint PPT PresentationTRANSCRIPT
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Presented by: Idris AjiaAssessor: Dr. Tareq Al-Naffouri
Date: Saturday, 12 December 2009
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Increasing dependence on Digital Communication.
Need for accurate data TXCalculating BER. Improving the
System Aim of Paper:
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Use of grey coding to map the symbols on the Constellation plotThen use the geometric property of the constellation plot.
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The generic equation for an M-PSK message is:
Where
ETP is the symbol energy, T is the symbol period.
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Use Mathematical induction. Start with 4-PSK Each bit = a0a1 Pi is the probability of
an error occurring based on the decision made with respect to the i-axis
Constellation of 4-PSK
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Given symbols are equiprobable. Then: And Hence, probability of error for 4-psk is:
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For an 8-PSK, there are 3 bits per symbol as shown below:
It follows that:
Which approximates to:
•Let the bits in each symbol be a0a1a2. •Notice two new Axes C1 and C2
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Then:
It can now be seen that by means of induction,
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Now the BER of M-PSK can be determined by calculating Pa. To do this, we know that: For any MPSK signal space representation, there are four quadrants and each quadrant
contains the same number of constellation point. This means there are M/4 possible values for the vertical distance of each constellation to
the a-axis. The value for these distances, by observing the constellation plot is given by:
Since all symbols are equiprobable, the probability for any given symbol over an AWGN channel is given by:
So the probability of error due to the decision made with respect to the a-axis, given any symbol is given by:
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Then
Where di = distance between each symbol and the a-axis.
Now,
By means of substituting (7) into (6), we get the BER of MPSK as:
But
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The Ber for M-PSK is:
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My Approximation Real Value
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Don’t blame me, Blame the likes of Fourier, Mr
Gauss and Dr. Tareq. I will now entertain your
questions...
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