signal does not show filtered, using filter()

Question

Terry Carney 2021년 5월 9일

0
링크

이 질문에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/825380-signal-does-not-show-filtered-using-filter

댓글: Star Strider 2021년 5월 9일

채택된 답변: Star Strider

data.txt

MATLAB Online에서 열기

Hello,

I have a signal that I must filter out 60-Hz noise from. I've setup the three moving averages that I want to use to see which one will filter out the 60-Hz noise. However, when I use the coefficients with the unfiltered signal using the filter() function, the plot of the unfiltered signal and the "filtered" signal remains the same. Any advice would be helpful. If someone wants to also use the text file that contains the data for the unfiltered signal, that is attached as well.

%Moving Averages' Coefficients
ync = [.25, .5, .25]; 
ync1 = [-.085 .342 .485 .342 -.085]; 
ync2 = [-.090 .060 .168 .233 .255 .233 .168 .060 -.090] 
Fs1 = 500; %Sampling Frequency
Ts1 = 1/Fs1; %Sampling Time
t1 = 0:1/Fs1:1-1/Fs1;
data = load("data.txt");
dataMean = mean(data, 2);
plot(t1,dataMean); %Unfiltered Signal
z = filter(ync,1,dataMean); %Choice of Moving Average to test for filtered results
plot(t1,z);

The issue is that the unfiltered signal from the data.txt plot(t1,dataMean) looks identical to the intended filtered signal z = filter(ync,1,dataMean).

댓글 수: 0
이전 댓글 -2개 표시이전 댓글 -2개 숨기기

댓글을 달려면 로그인하십시오.

이 질문에 답변하려면 로그인하십시오.

Answer 1

Star Strider 2021년 5월 9일

0
링크

이 답변에 대한 바로 가기 링크

https://kr.mathworks.com/matlabcentral/answers/825380-signal-does-not-show-filtered-using-filter#answer_695340

MATLAB Online에서 열기

Use freqz to see what the filters are actually doing —

Fs1 = 500; %Sampling Frequency

ync = [.25, .5, .25];

ync1 = [-.085 .342 .485 .342 -.085];

ync2 = [-.090 .060 .168 .233 .255 .233 .168 .060 -.090];

figure

freqz(ync,1, 2^16, Fs1)

sgtitle('ync')

figure

freqz(ync1,1, 2^16, Fs1)

sgtitle('ync_1')

figure

freqz(ync2,1, 2^16, Fs1)

sgtitle('ync_2')

So none of them are going to filter out the 60 Hz signal.

To design one that specifically will do that —

Fs1 = 500; %Sampling Frequency

freqs = [57 59 61 63];

mags = [1 0 1];

devs = [0.05 0.01 0.05];

[n,Wn,beta,ftype] = kaiserord(freqs,mags,devs,Fs1)

n = 560

Wn = 2×1

0.2320 0.2480

beta = 3.3953

ftype = 'stop'

hh = fir1(n,Wn,ftype,kaiser(n+1,beta),'noscale');

figure

freqz(hh, 1, 2^16, Fs1)

sgtitle('60 Hz Notch Filter')

This is a relatively long filter, however it should do what you want.

Use the filtfilt function to do the actual filtering.

.

댓글 수: 4
이전 댓글 2개 표시이전 댓글 2개 숨기기

Star Strider 2021년 5월 9일

MATLAB Online에서 열기

All FIR filters can be considered in some senseto be ‘moving average’ filters.

All three filters will do some filtering, however it appears that ‘ync2’ will reduce the 60 Hz noise the most, according to the freqz plots.

It is relatively straightforward to design a simple FIR filter to specifically filter out the 60 Hz signal —

Fs1 = 500; %Sampling Frequency

h = poly(exp([-5:5]*1j*2*pi*60/Fs1))

h = 1×12

1.0000 2.2936 1.9694 0.5413 -0.0680 0.0344 -0.0344 0.0680 -0.5413 -1.9694 -2.2936 -1.0000

figure

freqz(h, numel(h)/2, 2^16, 500)

T1 = readtable('https://www.mathworks.com/matlabcentral/answers/uploaded_files/612055/data.txt')

T1 = 500×5 table

Var1 Var2 Var3 Var4 Var5 _________ ________ _________ _________ ________ 1.6067 1.343 0.86572 1.4553 1.4346 1.1257 1.2429 0.55563 1.1171 0.9255 0.31181 0.57671 0.027391 0.45708 0.12871 -0.34201 -0.57517 -0.56052 -0.007544 -0.50925 -0.8969 -0.90056 -0.78215 -0.44035 -0.71257 -0.87982 -0.54901 -0.62347 -0.24017 -0.53436 -0.089725 0.21301 -0.081181 0.49866 0.28625 1.1962 1.0583 0.42841 1.1559 1.2145 1.8389 1.7791 0.90144 1.4227 1.7852 1.6258 1.9163 0.91537 1.1888 1.8077 1.0158 1.5151 0.12714 0.40545 1.1428 0.63252 0.81812 -0.4624 -0.42822 0.57762 0.27022 0.17622 -0.6185 -1.1129 0.15782 0.32022 0.13102 -0.55014 -1.2411 0.20912 1.1867 0.85112 -0.25976 -0.7688 0.57522 1.9521 1.5663 0.36639 -0.10602 1.0207

signal = T1{:,1};

L = numel(signal)

L = 500

t = linspace(0, L-1, L)/Fs1;

signal_filtered = filtfilt(h, numel(h)/2, signal);

figure

subplot(2,1,1)

plot(t, signal)

grid

title('Unfiltered Signal')

subplot(2,1,2)

plot(t, signal_filtered)

grid

title('Filtered Signal')

Comparing it to the more sophisticated FIR filter —

freqs = [50 58 62 70];

mags = [1 0 1];

devs = [0.05 0.01 0.05];

[n,Wn,beta,ftype] = kaiserord(freqs,mags,devs,Fs1)

n = 140

Wn = 2×1

0.2160 0.2640

beta = 3.3953

ftype = 'stop'

hh = fir1(n,Wn,ftype,kaiser(n+1,beta),'noscale');

signal_filtered_2 = filtfilt(hh, 1, signal);

figure

subplot(2,1,1)

plot(t, signal)

grid

title('Unfiltered Signal')

subplot(2,1,2)

plot(t, signal_filtered_2)

grid

title('Filtered Signal 2')

The 60 Hz interference is relatively high, and while definitely unsophisticated, the simple filter gives a reasonably good account of itself.

.

Terry Carney 2021년 5월 9일

So how can I get the results of subplot(2,1,2) only using the filter function and the ync2 (since you've stated that this is the best out of the three) coefficients, if possible? I agree, your method is more sophisticated. But I'm restricted to using only the filter function and a choice of the three created moving averages (ync, ync1, or ync2); I can't use filtfilt.

Star Strider 2021년 5월 9일

MATLAB Online에서 열기

I would just do something like this —

signal_filtered = filter(ycn2, 1, signal)

That will not eliminate the 60 Hz noise because the filter is not designed to do that. It will simply attenuate it a bit.

댓글을 달려면 로그인하십시오.

signal does not show filtered, using filter()

댓글 수: 0
이전 댓글 -2개 표시이전 댓글 -2개 숨기기

채택된 답변

댓글 수: 4
이전 댓글 2개 표시이전 댓글 2개 숨기기

추가 답변 (0개)

참고 항목

카테고리

태그

Community Treasure Hunt

signal does not show filtered, using filter()

댓글 수: 0 이전 댓글 -2개 표시이전 댓글 -2개 숨기기

채택된 답변

댓글 수: 4 이전 댓글 2개 표시이전 댓글 2개 숨기기

추가 답변 (0개)

참고 항목

카테고리

태그

Community Treasure Hunt

댓글 수: 0
이전 댓글 -2개 표시이전 댓글 -2개 숨기기

댓글 수: 4
이전 댓글 2개 표시이전 댓글 2개 숨기기