Using the trigonometric Fourier series to develop MATLAB code to confirm correctness
3 件のコメント
Hi @Mummana Sai Varun,
Below is a detailed MATLAB code that computes the Fourier series expansion for an exponentially rising signal.
% Parameters
a = 1; % Growth rate
T = 2; % Period
N = 10; % Number of Fourier coefficients
% Time vector
t = linspace(0, 4*T, 1000); % Time from 0 to 4 periods
% Define the exponentially rising signal
x_t = exp(a * mod(t, T)); % Modulo to create periodicity
% Initialize Fourier coefficients
a0 = (1/T) * integral(@(t) exp(a * mod(t, T)), 0, T);
a_n = zeros(1, N);
b_n = zeros(1, N);
% Compute Fourier coefficients
for n = 1:N
a_n(n) = (2/T) * integral(@(t) exp(a * mod(t, T)) .* cos(2 * pi * n * t / T), 0, T);
b_n(n) = (2/T) * integral(@(t) exp(a * mod(t, T)) .* sin(2 * pi * n * t / T), 0, T);
end
% Construct the Fourier series
fourier_series = a0 / 2; % Start with a0/2
for n = 1:N
fourier_series = fourier_series + a_n(n) * cos(2 * pi * n * t / T) + b_n(n) * sin(2
* pi * n * t / T);
end
% Plotting
figure;
plot(t, x_t, 'r', 'LineWidth', 1.5); % Original signal
hold on;
plot(t, fourier_series, 'b--', 'LineWidth', 1.5); % Fourier series approximation
title('Fourier Series Approximation of Exponentially Rising Signal');
xlabel('Time (t)');
ylabel('Amplitude');
legend('Original Signal', 'Fourier Series Approximation');
grid on;
hold off;
Please see attached.
Hope, this answers your question.
回答 (2 件)
4 件のコメント
Hi
Addressing your query regarding, “fr = 2/5 + sum(2/(n*pi)*sin(2*pi/5*n)*cos(2*pi/5*n*t)) x(t) = sum(rect((t-5*n)/2)) I really don't know how to plot two function. Please help me.”
Please see my response to comments below.
First, set up the parameters for computation. This includes defining the number of terms in the summation, the time variable, and initializing the result array.
N = 100; % Number of terms in the summation
t = linspace(0, 10, 1000); % Time variable from 0 to 10 with 1000 points
result = zeros(size(t)); % Initialize result array
Next, compute the summation by iterating through each term from 1 to N. For each term, calculate the current term of the series and accumulate it into the result array.
for n = 1:N
% Calculate the current term of the series
current_term = (2 * sin(2 * pi * n / 5) .* cos(2 * pi * n * t / 5)) / (n *
pi); % Accumulate the result
result = result + current_term;
end
Once the summation is computed, visualize the result using a plot. This will help you understand the behavior of the function over the specified time range.
figure; % Create a new figure window
plot(t, result, 'LineWidth', 2); % Plot the result with specified line width
title('Plot of the Summation Function'); % Add a title to the plot
xlabel('Time (t)'); % Label the x-axis
ylabel('Function Value'); % Label the y-axis
grid on; % Enable grid for better readability
Please see attached plot.
Hope this helps. Please let me know if you still have any further questions.
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