How to remove the AWGN noise from data?

50 visualizzazioni (ultimi 30 giorni)

Mostra commenti meno recenti

Sadiq Akbar il 29 Set 2022

0
Link

Link diretto a questa domanda

https://it.mathworks.com/matlabcentral/answers/1814625-how-to-remove-the-awgn-noise-from-data

Commentato: Sadiq Akbar il 4 Ott 2022

Let's say we have a vector data Uo=[20 30 40 50];

If we add AWGN noise to it, it becomes data U i.e.,

U=awgn(Uo,30);

Now we see that U and Uo are different. We want to get back our original data Uo. I tried as:

Uo=U-awgn(30);

But it gives error as:

Error using awgn (line 63)

Not enough input arguments.

What commands should I use to get back my vector Uo?

0 Commenti
Mostra -2 commenti meno recentiNascondi -2 commenti meno recenti

Accedi per commentare.

Accedi per rispondere a questa domanda.

Risposte (2)

Chunru il 30 Set 2022

0
Link

Link diretto a questa risposta

https://it.mathworks.com/matlabcentral/answers/1814625-how-to-remove-the-awgn-noise-from-data#answer_1063670

Uo=[20 30 40 50]; % signal

U=awgn(Uo,30) % add noise to signal

U = 1×4

19.9837 29.9773 40.0475 50.0504

% Uo=U-awgn(30);

% if you don't know the noise (which is U-Uo), you are not able to fully

% recover the signal.

% However, it is possible to "filter" out noise if signal and noise are

% different in certain characteristics.

% For your case, signal is a low-pass signal and lowpass filter can help to

% remove some noise.

Uo = [20:1:100]/30;

U = awgn(Uo, 10);

b = fir1(20, 0.02); % low pass filter

Ufiltered = filtfilt(b, 1, U);

t = 0:length(Uo)-1;

plot(t, Uo, 'r', t, U, 'b', t, Ufiltered, 'k')

legend("Signal", "Signal+noise", "Filtered")

2 Commenti
Mostra NessunoNascondi Nessuno

Sadiq Akbar il 30 Set 2022

Thanks a lot dear Chunru for your kind response. Actually I want to get back my my original vector Uo if not exactly then aprroximately equal.I don't need the plot. In your piece of code, you have used a low pass filter. But I don't know why did you use it? 2ndly you have not get back the original Uo. Can you do some filtering so that we can get exactly or approximately Uo. 3rdly my original vector consists of only four values but you have taken 81 values i.e., Uo = [20:1:100]/30; Why is this?

Chunru il 30 Set 2022

The plot is for u to see how good the filtered result as an approximation. You can always comment it out when you are satisfied the results.

For filter to work. You need sufficient data. If you have only 4 points, you may not be able to do much with the added noise.

Accedi per commentare.

Star Strider il 30 Set 2022

0
Link

Link diretto a questa risposta

https://it.mathworks.com/matlabcentral/answers/1814625-how-to-remove-the-awgn-noise-from-data#answer_1063685

I would simply use a moving average filter, for example movmean, or choose one of the options in smoothdata, to eliminate normally-distributed additive noise.

15 Commenti
Mostra 13 commenti meno recentiNascondi 13 commenti meno recenti

Star Strider il 30 Set 2022

Getting your original vector may not be possible. It may be necessary to accept the result being ‘close enough’.

% clear all

% clc

% A template is given

temp = [20 30 40 50]';

% Create a matched filter based on the template

b = flipud(temp(:));%My comment:Just reverse the vector temp up side down

% For testing the matched filter, create a random signal which

% contains a match for the template at some time index

x = [randn(200,1); temp(:); randn(300,1)];

n = 1:length(x);

% Process the signal with the matched filter

y = filter(b,1,x);

% Set a detection threshold (exmaple used is 90% of template)

thresh = 0.9

thresh = 0.9000

% Compute normalizing factor

u = temp.'*temp;

% Find matches

matches = n(y>thresh*u);

% Plot the results

plot(n,y,'b', n(matches), y(matches), 'ro')

grid

% Print the results to the console

display(matches);

matches = 204

Check = y(y>500)

Check = 7×1

1.0e+03 * 0.9831 2.2866 3.7918 5.4000 3.8339 2.3067 1.0961

Also, the filter may need to be ‘normalised’, for example:

y = filter(b,sum(b),x);

I will let you experiment further with this.

Star Strider il 30 Set 2022

My pleasure!

Yopu are filtering a signal padded on both ends by normally-distributed random numbers. It is unlikely that you will be able to recover your exact signal from it. (I changed the filter call to experiment with a normalised version. Change it back if you want to.)

% clear all

% clc

% A template is given

temp = [20 30 40 50]';

% Create a matched filter based on the template

b = flipud(temp(:));%My comment:Just reverse the vector temp up side down

% For testing the matched filter, create a random signal which

% contains a match for the template at some time index

x = [randn(200,1); temp(:); randn(300,1)];

n = 1:length(x);

% Process the signal with the matched filter

y = filter(b,sum(b),x); % Changed

% Set a detection threshold (exmaple used is 90% of template)

thresh = 0.9

thresh = 0.9000

% Compute normalizing factor

u = temp.'*temp;

u = 5400

% Find matches

matches = n(y>thresh*u);

% Plot the results

plot(n,y,'b', n(matches), y(matches), 'ro')

grid

% Print the results to the console

display(matches);

matches = 1×0 empty double row vector

Check = y(y>mean(y(1:100))+10*std(y(1:100))) % Recover Peak Data

Check = 7×1

7.4727 16.5828 27.1003 38.5714 27.9014 16.9928 7.4240

Star Strider il 3 Ott 2022

My pleasure!

It is likely not possible to completely recover a signal that has had Gaussian white noise added to it.

Experiment with the sgolayfilt function and wdenoise (wavelet denoising) function. Those are likely the best options.

Sadiq Akbar il 4 Ott 2022

Thanks a lot for your kind response dear Star Strider. Can you demonstrate it here as I am not too much expert in Matlab?

Accedi per commentare.

Accedi per rispondere a questa domanda.

Categorie

Signal Processing Signal Processing Toolbox Digital and Analog Filters Digital Filtering

Scopri di più su Digital Filtering in Help Center e File Exchange

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by