# Finding the frequency value of a signal

889 views (last 30 days)

Show older comments

How can I find the frequency of this signal?

Thanks,

##### 2 Comments

Image Analyst
on 26 Oct 2021

@Yasemin G try this:

% Initialization steps.

clc; % Clear the command window.

close all; % Close all figures (except those of imtool.)

imtool close all; % Close all imtool figures if you have the Image Processing Toolbox.

clear; % Erase all existing variables. Or clearvars if you want.

workspace; % Make sure the workspace panel is showing.

format long g;

format compact;

fontSize = 18;

%==================================================================================

% Image Analyst's code below:

period = 0.57e5

originalFrequency = 1/period

x = linspace(0, 2e5, 2000);

signalAmplitude = 0.85;

perfectSineWave = signalAmplitude * sin(2 * pi * (x - 0.08e5) / period);

subplot(2,1,1);

plot(x, perfectSineWave, 'b-');

grid on;

noiseAmplitude = 0.05;

yNoisy = perfectSineWave + noiseAmplitude * (2 * rand(1, length(x)) - 1);

hold on;

darkGreen = [0, 0.5, 0];

plot(x, yNoisy, '-', 'Color', darkGreen)

yline(0, 'Color', 'b', 'LineWidth', 2)

xlabel('Time or x', 'FontSize',fontSize);

ylabel('Signal', 'FontSize',fontSize);

title('Original Signal', 'FontSize',fontSize);

%==================================================================================

% Harry's code below:

% Assume we capture 8192 samples at 1kHz sample rate

Nsamps = 8192;

fsamp = 1000;

Tsamp = 1/fsamp;

t = (0:Nsamps-1)*Tsamp;

% Choose FFT size and calculate spectrum

Nfft = 1024;

[Pxx,f] = pwelch(yNoisy, gausswin(Nfft), Nfft/2, Nfft,fsamp);

% Plot frequency spectrum

subplot(2,1,2);

plot(f, Pxx, 'b-', 'LineWidth', 2);

ylabel('PSD', 'FontSize',fontSize);

xlabel('Frequency (Hz)', 'FontSize',fontSize);

grid on;

% Get frequency estimate (spectral peak)

[~,loc] = max(Pxx);

FREQ_ESTIMATE = f(loc)

caption = sprintf('Frequency estimate = %f Hz', FREQ_ESTIMATE);

title(caption, 'FontSize',fontSize);

g = gcf;

g.WindowState = 'maximized'

### Accepted Answer

Harry
on 26 Oct 2014

Edited: Harry
on 26 Oct 2014

Whenever you're interested in frequency content of a signal, the Fast Fourier Transform is often an excellent tool to use (see help fft). More specifically, Matlab's PWELCH function will provide a Power Spectral Density estimate using Welch's method:

[Pxx,F] = pwelch(X,WINDOW,NOVERLAP,NFFT,Fs)

Here is an example of how to use it to estimate frequency:

close all; clear all; clc;

% Assume we capture 8192 samples at 1kHz sample rate

Nsamps = 8192;

fsamp = 1000;

Tsamp = 1/fsamp;

t = (0:Nsamps-1)*Tsamp;

% Assume the noisy signal is exactly 123Hz

fsig = 123;

signal = sin(2*pi*fsig*t);

noise = 1*randn(1,Nsamps);

x = signal + noise;

% Plot time-domain signal

subplot(2,1,1);

plot(t, x);

ylabel('Amplitude'); xlabel('Time (secs)');

axis tight;

title('Noisy Input Signal');

% Choose FFT size and calculate spectrum

Nfft = 1024;

[Pxx,f] = pwelch(x,gausswin(Nfft),Nfft/2,Nfft,fsamp);

% Plot frequency spectrum

subplot(2,1,2);

plot(f,Pxx);

ylabel('PSD'); xlabel('Frequency (Hz)');

grid on;

% Get frequency estimate (spectral peak)

[~,loc] = max(Pxx);

FREQ_ESTIMATE = f(loc)

title(['Frequency estimate = ',num2str(FREQ_ESTIMATE),' Hz']);

##### 5 Comments

### More Answers (2)

Image Analyst
on 25 Oct 2014

##### 4 Comments

Image Analyst
on 27 Mar 2020

Ramo, You chose a frame length, 41, that was far too small. It should be hundreds or thousands because you have 200 thousand data points (which is far too many to see on a single screen without zooming, by the way). Here is corrected code:

% Read in data.

data = dlmread('uapp.txt');

x = data(:, 1);

y = data(:, 2);

% Plot original noisy data.

subplot(1, 3, 2);

plot(x, y, '-');

title('Noisy Data', 'FontSize', 15);

grid on;

% Smooth the data

smoothedY = sgolayfilt(y, 4, 2001);

% Plot smoothed data.

subplot(1, 3, 3);

plot(x, smoothedY, 'r-', 'LineWidth', 2);

grid on;

title('Smoothed Data', 'FontSize', 15);

% Plot both original and smoothed data.

subplot(1, 3, 1);

plot(x, y, '-');

title('Noisy Data', 'FontSize', 15);

grid on;

hold on;

plot(x, smoothedY, 'r-', 'LineWidth', 2);

title('Both Noisy and Smoothed Data', 'FontSize', 15);

% Maximize the window.

g = gcf;

g.WindowState = 'maximized'

Ramo
on 26 Oct 2014

##### 7 Comments

Rodrigo Picos
on 27 Mar 2020

Many years later.....

You should use 'sin3' or 'sin4', and check if you need to use the third or fourth component.

Hint: call F=fit( ) without the ending ;

### See Also

### Categories

### Products

### Community Treasure Hunt

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

Start Hunting!