Using function handles in a ODE function

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Pavitra Jain on 11 Aug 2022

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Answered: Torsten on 12 Aug 2022

I am working on an optimisation problem for which i created a fitness function. From the input of the fitness we get some symbolic expression which i kept as a function handle in this case. And those expression will be used in the ODE function which will then later be solved in main fitness function using ode45 solver. In trying to do so, I am getting following error:

Next is my ODE function

then comes the declaration of wdwdX wdx and w2. Names of the function handle looks a bit wierd but they were kept for the reason of their origin which is actually a little complex and hence the names are like this.

Here is the declaration of function handles in the main fitness function:

function y = acceleromet(x)
global wdwdX wdx w2
wdwdX = @(t) -6*(x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))*(3*x(1)*t.^2 + 2*x(2)*t + x(3));
wdx = @(t) -1*(6*(x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))*(3*x(1)*t.^2 + 2*x(2)*t + x(3))^2 + 3*(x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))^2*(6*x(1)*t + 2*x(2)));
w2 = @(t) (x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))^2;
xRange = [0,L];
yinit = [0 0 M V];
sol = ode45(@deflection,xRange,yinit);
xinit = linspace(xlow,xhigh,300);
Sxinit = deval(sol,xinit);
end

using Sxinit i further solve it.

So, I request anyone who can help me with this problem.

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Answer 1

Torsten on 12 Aug 2022

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Open in MATLAB Online

x, L, M, V, xlow, xhigh are not given.

function y = acceleromet(x)
wdwdx = @(t) -6*(x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))*(3*x(1)*t.^2 + 2*x(2)*t + x(3));
wdx = @(t) -1*(6*(x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))*(3*x(1)*t.^2 + 2*x(2)*t + x(3))^2 + 3*(x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))^2*(6*x(1)*t + 2*x(2)));
w2 = @(t) (x(1)*t.^3 + x(2)*t.^2 + x(3)*t + x(4))^2;
xRange = [0,L];
yinit = [0 0 M V];
sol = ode45(@(t,y)deflection(t,y,wdwdx,wdx,w2),xRange,yinit);
xinit = linspace(xlow,xhigh,300);
Sxinit = deval(sol,xinit);
end
function dydt = deflection(t,y,wdwdx,wdx,w2)
y0 = y(1);
y1 = y(2);
y2 = y(3);
y3 = y(4);
dy0dt = y1;
dy1dt = y2;
dy2dt = y3;
dy3dt = (wdwdx(t)*y3 + wdx(t)*y2 + 12*2300*9.81/169e9)/w2(t)
dydt = [dy0dt;dy1dt;dy2dt;dy3dt];
end