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Finding error and partial sum in a Fourier Series

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Ryan Spragg
Ryan Spragg el 19 de Oct. de 2022
Respondida: Ishu el 29 de Ag. de 2023
Ran in:
I am looking to claculate the eror of this fourier series:
The intended goal of this project is to perform the partial sum from 1 to some value of n which yields a root mean square error(RMSE) smaller thatn 10^-6. I have been working alongisde some people and this is what we've developed as our code.
I am not sure how to include the partial sum for each of these values and I am attempting to find a way to extrapolate the value of n where error is smaller than 10^-6.
Initially I had a for loop for with different conditions of n and x but it would not produce a reasonable error.
Any advice on how to simplify this process or extrapolate error would be greatly appreciated!
close all; clc;
L=10;
nx=7000 %% number of data points
nx = 7000
x = (linspace(0,L,nx)).' ;
n_max=1000 %% maximum boundary condition of summation
n_max = 1000
n=1:n_max
n = 1×1000
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30
f =(((-1).^n)-1).*(cos(n.*x))./((n.^2)*(3.14159))+((1-(2.*(-1).^n)).*(sin(n.*x))./n) ;
f_final=-pi/4+sum(f,2)
f_final = 7000×1
-1.5705 -0.2936 0.2702 0.1342 -0.1200 -0.0950 0.0736 0.0978 -0.0177 -0.0626
plot(x, f_final)
error=sqrt((f(n_max)-f(n_max-1)).^2)./n_max
error = 1.5159e-06

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Respuestas (1)

Ishu
Ishu el 29 de Ag. de 2023
Hi Ryan,
I understand that you are trying to calculate the “Root Mean Square Error smaller than 10^-6 from 1 to some value of n. So, in this case you can use "while" loop, whenever the error is less than 10^-6 then you can break the loop otherwise you can increment the value of n by 1.
To calculate the partial sum you can use "cumsum" function.
I have used the same values of nx and L as provided by you and then calculated the partial sums using these values for every value of n’ starting from 1 until the error comes less than 10^-6.
L=10;
nx=7000;
x = (linspace(0,L,nx)).'; % column vector with 7000 values
n=1;
error_max = 10e-6; % error limit
while true
f =(((-1).^n)-1).*(cos(n.*x))./((n.^2)*(3.14159))+((1-(2.*(-1).^n)).*(sin(n.*x))./n);
f_final = -pi/4+cumsum(f,2); %partial sums
% Calculate the error
mean_value = mean(f_final);
error = sqrt(sum(((f_final - mean_value).^2))./length(f_final)); % Root mean square error function
% Check if the error is smaller than the error limit
if error < error_max
break; % Exit the loop if the error is below the limit
end
n = n + 1; % Increment n for the next iteration
end
error
For further information on cumsum you can refer this documentation:
https://www.mathworks.com/help/matlab/ref/cumsum.html
Hope this helps!

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