% Chapter 07: Example 7.12 Differentiator design - Hamming window
%
M = 21; alpha = (M-1)/2;
n = 0:M-1;
hd = (cos(pi*(n-alpha)))./(n-alpha); hd(alpha+1)=0;
w_ham = (hamming(M))';
h = hd .* w_ham;
[Hr,w,P,L] = Hr_Type3(h);
% plots
subplot(1,1,1);
subplot(2,2,1); stem(n,hd); title('Ideal Impulse Response')
axis([-1 M -1.2 1.2]); xlabel('n'); ylabel('hd(n)')
subplot(2,2,2); stem(n,w_ham);title('Hamming Window')
axis([-1 M 0 1.2]); xlabel('n'); ylabel('w(n)')
subplot(2,2,3); stem(n,h);title('Actual Impulse Response')
axis([-1 M -1.2 1.2]); xlabel('n'); ylabel('h(n)')
subplot(2,2,4);plot(w/pi,Hr/pi); title('Amplitude Response');grid;
xlabel('frequency in pi units'); ylabel('slope in pi units')
axis([0 1 0 1]);
set(gca,'XTickMode','manual','XTick',[0,0.2,0.4,0.6,0.8,1])
set(gca,'YTickMode','manual','YTick',[0,0.2,0.4,0.6,0.8,1])
