From 85faa0607a24eb3bbf34192d68f1d4c56f75e76e Mon Sep 17 00:00:00 2001 From: Adrien COMBE Date: Fri, 24 Mar 2023 09:55:33 +0100 Subject: [PATCH] Function FrequencySpectrum --- frequencySpectrum.m | 60 +++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 60 insertions(+) create mode 100644 frequencySpectrum.m diff --git a/frequencySpectrum.m b/frequencySpectrum.m new file mode 100644 index 0000000..c218917 --- /dev/null +++ b/frequencySpectrum.m @@ -0,0 +1,60 @@ +function [power, duration] = frequencySpectrum(signal, fs, pad) +%%%%%%%%%%%%%%%%%% +%function power = frequencySpectrum(signal, fs, pad) +% +% Task: Display the power spectrum (lin and log scale) of a given signal +% +% Input: +% - signal: the input signal to process +% - fs: the sampling rate +% -pad: boolean if true, signal is padded with 0 to the next power of 2 -> FFT instead of DFT +% +% Output: +% - power: the power spectrum +% +% +% Guillaume Gibert, guillaume.gibert@ecam.fr +% 25/04/2022 +%%%%%%%%%%%%%%%%%% + +n = length(signal); % number of samples + +if (pad) + n = 2^nextpow2(n); +end + +tic +y = fft(signal, n);% compute DFT of input signal +duration = toc; + +power = abs(y).^2/n; % power of the DFT + +[val, ind] = max(power); % find the mx value of DFT and its index + +% plots +figure; + +subplot(1,3,1) % time plot +t=0:1/fs:(n-1)/fs; % time range +%pad signal with zeros +if (pad) + signal = [ signal; zeros( n-length(signal), 1)]; +end +plot(t, signal) +xticks(0:0.1*fs:n*fs); +xticklabels(0:0.1:n/fs); +xlabel('Time (s)'); +ylabel('Amplitude (a.u.)'); + +subplot(1,3,2) % linear frequency plot +f = (0:n-1)*(fs/n); % frequency range +plot(f,power, 'b*'); hold on; +plot(f,power, 'r'); +xlabel('Frequency (Hz)') +ylabel('Power (a.u.)') + +subplot(1,3,3) % log frequency plot +plot(f,10*log10(power/power(ind))); +xlabel('Frequency (Hz)') +ylabel('Power (dB)') +