M = 20; alpha = (M-1)/2; l = 0:M-1; wl = (2*pi/M)*l;

Hrs = [1, 1, 1, zeros(1, 15), 1, 1];       % Ideal Amp Res sampled

Hdr = [1, 1, 0, 0];

wdl = [0, 0.25, 0.25, 1];                  % Ideal Amp Res for plotting

k1 = 0:floor((M-1)/2); k2 = floor((M-1)/2)+1:M-1;

angH = [-alpha*(2*pi)/M*k1, alpha*(2*pi)/M*(M-k2)];

H = Hrs.*exp(j*angH); h = real(ifft(H, M));

[db, mag, pha, grd, w] = freqz_m(h, 1);

[Hr, ww, a, L] = Hr_Type2(h);

a

L

%Plot

figure('NumberTitle', 'off', 'Name', 'Exameple 7.14')

set(gcf,'Color','white');

subplot(2,2,1); plot(wl(1:11)/pi, Hrs(1:11), 'o', wdl, Hdr); axis([0, 1, -0.1, 1.1]);

xlabel('frequency in \pi nuits'); ylabel('Hr(k)'); title('Frequency Samples: M=20');

grid on;

subplot(2,2,2); stem(l, h); axis([-1, M, -0.1, 0.3]);

xlabel('n'); ylabel('h(n)'); title('Impulse Response');

grid on;

subplot(2,2,3); plot(ww/pi, Hr, wl(1:11)/pi, Hrs(1:11), 'o'); axis([0, 1, -0.2, 1.2]); grid on;

xlabel('frequency in \pi units'); ylabel('Hr(w)'); title('Amplitude Response');

grid on;

subplot(2,2,4); plot(w/pi, db); axis([0, 1, -60, 10]); grid on;

xlabel('frequency in \pi units'); ylabel('Decibels'); title('Magnitude Response');

grid on;