Optimal reception-of-digital-signals
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Mar 18, 2020
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About This Presentation
receiver
Slide Content
OPTIMAL RECEPTION OF
DIGITAL SIGNALS
DIGITAL SIGNALS
INTEGRATE AND DUMP FILTER
RECEIVER
RECEIVER
•Here the signal s(t) is distorted by noise n(t) and
applied to the input of the integrate and dump filter.
• The capacitor is discharged fully at the beginning of
bit interval(by closing Sw
1 switch),the integrator then
integrates the noisy input signal over one bit period.
applied to the input of the integrate and dump filter.
• The capacitor is discharged fully at the beginning of
bit interval(by closing Sw
1 switch),the integrator then
integrates the noisy input signal over one bit period.
•For a square pulse input the output would be triangular,
the magnitude of v
o(t).
•At t=T the o/p magnitude is maximum.
•Depending on the value of v
o(T),the decision is taken
whether the transmitted bit is 1 or 0.
•The dump switch Sw
1 is closed momentarily to
discharge the capacitor to receive the next bit.
the magnitude of v
o(t).
•At t=T the o/p magnitude is maximum.
•Depending on the value of v
o(T),the decision is taken
whether the transmitted bit is 1 or 0.
•The dump switch Sw
1 is closed momentarily to
discharge the capacitor to receive the next bit.
Signal to noise ratio
Signal output
Noise output of the integrator
Noise output of the integrator
Probability of error
Optimum receiver
Optimum filter transfer function
Optimum filter realization using
matched filter
matched filter
Error probability for matched filter
Optimum filter realization using
correlator
correlator
summary
•To perform detection the receiver observes the received
signal for the duration of one symbol and guesses which
particular symbol was sent according to some set of rules.
•In coherent detection the receiver is assumed to be in
possession of exact replicas of the transmitted signals.
•In coherent detection a source of error in decision making
process is additive thermal noise at the receiver
input ,which is modelled as Gaussian noise of zero mean
and constant power spectral density.
•To perform detection the receiver observes the received
signal for the duration of one symbol and guesses which
particular symbol was sent according to some set of rules.
•In coherent detection the receiver is assumed to be in
possession of exact replicas of the transmitted signals.
•In coherent detection a source of error in decision making
process is additive thermal noise at the receiver
input ,which is modelled as Gaussian noise of zero mean
and constant power spectral density.
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