How do you sum concatenated variables in a system of ODES with a For Loop?

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Roger Vegeta el 18 de Mzo. de 2022

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Comentada: Davide Masiello el 18 de Mzo. de 2022

N = 3
% custom MATLAB function containing ODES
function dCdt = model(t,C,N)
    % Inner Parameters
    A = 3;
    B = 2;
    h = 10/N
    % ODE system initialization
    dCdt = zeros(N,1);
    
    K1 = 0;
    K2 = C(1)*A + B;
    K3 = C(2)*A + B;
    
    sumK = K2 + K3;
    
    % ODES
    
    dCdt(1) = 0;
    dCdt(2) = -((C(2)-C(1))/h) + K2/sumK;
    dCdt(3) = -((C(3)-C(2))/h) + K3/sumK;
end

Above you can see a static example of an ODE system with three ODEs. However, I want to automate this function so It can handle any number ("N") of ODEs. I have not found a way to include a For Loop inside the function that not only updates the number of ODEs but also the lengh of the "K" summation. Since the first ODE will always be equalt to zero, I can easialy run a for loop to define ODES from 2 to N. But, How would I write an expression that also update the concatenated summation term for any "N" value?

Thank you for your time and support!

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Jan el 18 de Mzo. de 2022

Hint: The "k3" should be "K3" (upper case) I assume.

Roger Vegeta el 18 de Mzo. de 2022

Yes!

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Davide Masiello el 18 de Mzo. de 2022

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Editada: Davide Masiello el 18 de Mzo. de 2022

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This should do it for any N

N = 3;

[t,X] = ode45(@(t,C)model(t,C,N),[0,2],rand(1,N));

plot(t,X)

legend('c1','c2','c3')

function dCdt = model(t,C,N)

% Inner Parameters

A = 3;

B = 2;

h = 0.1; % <-- added a values for h

% ODE system initialization

dCdt = zeros(N,1);

K = zeros(N,1);

K(2:end) = C(1:end-1)*A + B;

sumK = sum(K(2:end));

dCdt(2:end) = -((C(2:end)-C(1:end-1))/h) + K(1)/sumK;

end

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Roger Vegeta el 18 de Mzo. de 2022

Awesome! Thank you so much this works!

Davide Masiello el 18 de Mzo. de 2022

Anytime ;)

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Jan el 18 de Mzo. de 2022

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Editada: Jan el 18 de Mzo. de 2022

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This is trivial, if you do not create a bunch of variables, but an array:

    K(1) = 0;
    K(2) = C(1) * A + B;
    K(3) = C(2) * A + B;
    ...
    sumK = sum(K);
    

Or without a loop:

K = C * A + B;

If K1 is 0, the last term of the ODEs will vanish in all cases, so simply omit it.

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Roger Vegeta el 18 de Mzo. de 2022

good observations!

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