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demo_critere_filtre.m
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clear all; global N = 2048; function rejection = rejection_criteria(log_data, fc) N = length(log_data); % Index of the first point in the tail fir index_tail = round((fc + 0.1) * N) + 1; % Index of th last point on the band index_band = round((fc - 0.1) * N); % Get the worst rejection in stopband worst_rejection = -max(log_data(index_tail:end)); % Get the total of deviation in passband worst_band = mean(-1 * abs(log_data(1:index_band))); % Compute the rejection passband_malus = 10; % weighted value to penalize the deviation in passband rejection = worst_band * passband_malus + worst_rejection; endfunction function [h, log_curve, rejection] = compute_freqz(filename) global N; b = load(filename); [h, w] = freqz(b, 1, N/2); mag = abs(h); mag = mag ./ mag(1); log_curve = 20 * log10(mag); rejection = rejection_criteria(log_curve, 0.5); endfunction # Stages hTotal = ones(N/2, 1); % [h, curve1, c1] = compute_freqz("filters/fir1/fir1_033_int08"); % 1) -8dB % [h, curve1, c1] = compute_freqz("filters/fir1/fir1_037_int08"); % 2) -9dB [h, curve1, c1] = compute_freqz("filters/fir1/fir1_037_int08"); hTotal = hTotal .* h; % [h, curve2, c2] = compute_freqz("filters/fir1/fir1_033_int10"); % 1) -8dB % [h, curve2, c2] = compute_freqz("filters/fir1/fir1_033_int10"); % 2) -9dB [h, curve2, c2] = compute_freqz("filters/fir1/fir1_033_int10"); hTotal = hTotal .* h; % [h, curve3, c3] = compute_freqz("filters/fir1/fir1_033_int08"); % hTotal = hTotal .* h; % [h, curve4, c4] = compute_freqz("filters/fir1/fir1_033_int10"); % hTotal = hTotal .* h; % [h, curve5, c5] = compute_freqz("filters/fir1/fir1_015_int11"); % hTotal = hTotal .* h; # Log total mag = abs(hTotal); mag = mag ./ mag(1); log_freqz = 20 * log10(mag); cTotal = rejection_criteria(log_freqz, 0.5); [ c1+c2 cTotal ] % [ c1+c2+c3+c4+c5 cTotal ] clf; f_axe = [1:N/2] * 2/N; hold on; color = [0/255 114/255 189/255]; plot(f_axe, curve1, "linewidth", 1.5, "color", color); plot([0 1], [-c1 -c1], "--", "linewidth", 1.5, "color", color); color = [217/255 83/255 25/255]; plot(f_axe, curve2, "linewidth", 1.5, "color", color); plot([0 1], [-c2 -c2], "--", "linewidth", 1.5, "color", color); % plot(f_axe, curve3, "linewidth", 1.5); % plot(f_axe, curve4, "linewidth", 1.5); % plot(f_axe, curve5, "linewidth", 1.5); color = [237/255 177/255 32/255]; plot(f_axe, log_freqz, "linewidth", 1.5, "color", color); plot([0 1], [-cTotal -cTotal], "--", "linewidth", 1.5, "color", color); plot([0 1], [-(c1 + c2) -(c1 + c2)], ":", "linewidth", 1.5, "color", color); plot([0.4 0.4], [-500 50], "k:") plot([0.6 0.6], [-500 50], "k:") ylim([-200 10]) hold off; xlabel("Normalized Frequency (a.u.)") ylabel("Rejection (dB)") legend("Reponse of 1st filter", "Rejection of 1st filter", "Reponse of 2nd filter", "Rejection of 2nd filter", "Reponse Total", "Actual Rejection", "Expected Rejection", "location", "southwest") |