Baseband Transmission with Additive Noise

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James Hayek
James Hayek el 24 de Jul. de 2015
Respondida: James Hayek el 26 de Jul. de 2015
I am learning Randoms Signals as well as MatLab. I have a few questions, as I know little of both topics.
I have no idea how to start this problem...
  • I am looking to generate a baseband transmission scheme that is made of binary rectangular pulses. The transmitted signal is contaminated by additive noise.
  • By using mean and variance estimators I am to determine the mean and variance using the generated noise with no signal transmitted.
At that point, I look to subtract the estimated mean from the signal yielding a fairly clean signal.
(For entirety, I will post the entire project in this post, yet I aim to resolve the above steps first prior to the ones below.)
Using that signal I have to use a "detector" (not sure of what this is referring to) to decide whether a 0 or 1 was transmitted. Then compare the received string and transmitted string to determine the number of errors and the average probability of error.
I was told I needed to learn how to generate a Gaussian random variable. After following some examples I have this: (Please advise me if it does not pertain to a solution of problem I mentioned above)
close all
clc
%%Generation of a signal bpsk modulation
%This takes a set of random numbers and converts them to bits 0's & 1's
%The 2*X-1 will create -1's in place of the 0's from the bit conversion.
signal_i = 2*(rand(1,10^5)>0.5)-1;
signal_q = zeros(1,10^5);
%In communication systems we have two components
%which is why we have singal i and q
scatterplot(signal_i + signal_q);
%%Combining for complex representation
signal = complex(signal_i, signal_q);
p_signal = mean(abs(signal).^2)
e_signal = (abs(signal).^2);
%%Adding some noise of a known variance
for var = 1/50:1/10:0.5
noise = 1/sqrt(2)*(randn(1,10^5)+j*randn(1,10^5))*sqrt(var);
addNoise = signal + noise;
figure(1);
plot(real(addNoise),imag(addNoise),'b*');
drawnow('expose');
end
I shall stop the questions here as there is much to cover as is. However, eventually I will need to transmit the sequence using two cases with parameters, one Gaussian noise and the other Laplacian.
I was given the sequences of: Equal probabilities: 10001011000111101001 Unequal probabilities: 11001111011011101101
Am I on the right track with the current code vs project requirements? If not, where shall I start?
Thanks in advance.

Respuestas (1)

James Hayek
James Hayek el 26 de Jul. de 2015
Any idea if this is the right way to start this project? If not, how should I proceed?

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