Thomas Dehaeze
6e3677eb29
Folder name is changed, rework the html templates Change the organisation.
47 lines
1.2 KiB
Matlab
47 lines
1.2 KiB
Matlab
%% Clear Workspace and Close figures
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clear; close all; clc;
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%% Intialize Laplace variable
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s = zpk('s');
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% Load data
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% We load the data of the z axis of two geophones.
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d_18 = load('mat/data_018.mat', 'data'); d_18 = d_18.data;
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d_19 = load('mat/data_019.mat', 'data'); d_19 = d_19.data;
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% Analysis - Time Domain
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figure;
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hold on;
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plot(d_19(:, 3), d_19(:, 1), 'DisplayName', 'Driver - Ground');
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plot(d_18(:, 3), d_18(:, 1), 'DisplayName', 'Driver - Granite');
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hold off;
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xlabel('Time [s]'); ylabel('Voltage [V]');
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xlim([0, 50]);
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legend('Location', 'bestoutside');
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% Analysis - Frequency Domain
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dt = d_18(2, 3) - d_18(1, 3);
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Fs = 1/dt;
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win = hanning(ceil(10*Fs));
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% Vibrations at the sample location
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% First, we compute the Power Spectral Density of the signals coming from the Geophone located at the sample location.
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[px_18, f] = pwelch(d_18(:, 1), win, [], [], Fs);
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[px_19, ~] = pwelch(d_19(:, 1), win, [], [], Fs);
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figure;
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hold on;
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plot(f, sqrt(px_19), 'DisplayName', 'Driver - Ground');
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plot(f, sqrt(px_18), 'DisplayName', 'Driver - Granite');
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hold off;
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set(gca, 'xscale', 'log');
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set(gca, 'yscale', 'log');
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xlabel('Frequency [Hz]'); ylabel('Amplitude Spectral Density $\left[\frac{V}{\sqrt{Hz}}\right]$')
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xlim([0.1, 500]);
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legend('Location', 'southwest');
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