how i can found the region of absolute stability ?

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sadeem alqarni
sadeem alqarni il 7 Lug 2018
Commentato: sadeem alqarni il 8 Lug 2018
n=0:30:180
h=((768 *cos((1/2)*n) + 96* cos(n) - 864) ./ (40*cos (1/2*n)+ 2*cos(n)+ 102))
figure
plot(n,h, 'b*-', 'LineWidth', 2)
grid on;
xlabel('n', 'FontSize', 20);
ylabel('h', 'FontSize', 20);

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Image Analyst
Image Analyst il 7 Lug 2018
Because you're using / (array division) instead of ./ (element by element division). Try this:
n=0:30:180
h=((768 *cos((1/2)*n) + 96* cos(n) - 864) ./ (40*cos (1/2*n)+ 2*cos(n)+ 102))
figure
plot(n,h, 'b*-', 'LineWidth', 2)
grid on;
xlabel('n', 'FontSize', 20);
ylabel('h', 'FontSize', 20);
% Do it again with more resolution.
n = linspace(min(n), max(n), 1000);
h=((768 *cos((1/2)*n) + 96* cos(n) - 864) ./ (40*cos (1/2*n)+ 2*cos(n)+ 102))
hold on;
plot(n,h, 'r-', 'LineWidth', 2)
grid on;
xlabel('n', 'FontSize', 20);
ylabel('h', 'FontSize', 20);

Più risposte (2)

sadeem alqarni
sadeem alqarni il 8 Lug 2018
how i can found the region of absolute stability ?
  2 Commenti
Image Analyst
Image Analyst il 8 Lug 2018
How is this an "Answer" to your original question? Anyway, as you can see from my plot, it depends on how you define stable. The values are constantly changing so they're not stable, however the overall pattern seems pretty stable - it seems to oscillate pretty much the same way over the time period plotted.
sadeem alqarni
sadeem alqarni il 8 Lug 2018
How do I do this plot,since my brograms above??

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sadeem alqarni
sadeem alqarni il 8 Lug 2018

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