Integrating a multivariate function w.r.t. a single variable

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Alexandru
Alexandru il 13 Feb 2013
Commentato: Walter Roberson il 5 Giu 2021
Hello,
I am defining a function using
f = @(x,y) (expression in x and y)
This definition I believe it is correct as I can call f(0,0) for example and I get the numerical value.
What I need to do next is integrate f(x,y) with respect to y between a and b and call this g(x). I need then to be able to pass g(x) to fsolve in order to compute the roots. How do I do this? I tried dblquad, but it integrates w.r.t. both variables at once. quad gives me and error as I am not sure what's the correct syntax for this.
Thanks, Alex

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Teja Muppirala
Teja Muppirala il 14 Feb 2013
Define another function handle to be the integral over y. Like this:
% Just making some random 2d function
f = @(x,y) (x.^2-y.^2).*cos(x./(1+y.^2));
% Some limits of integration
a = 0;
b = 3;
% Define g as the integral of f(x,y) dy from a to b
g = @(x) integral(@(y) f(x,y) , a,b);
% Plot it, and find a zero
ezplot(g)
fzero(g,0)
If your version of MATLAB doesn't have the INTEGRAL function, you could use QUAD instead.
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ARNAB PAL
ARNAB PAL il 19 Set 2019
Dear sir,
I have a question that if the function is a matrix function like,
f=@(x,y) K_2*exp(A*(x(i)-y))*B*u;
where K_2 is a (3*6) matrix,A is a (6*6) matrix ,B is (6*3) and u is (3*1) matrix. I want to find g=@(x) integral(@(y) f(x,y),0,x(i)) but when I use this it is not giving the output as a (3*1) vector?
Finally I want to find w=u-(K_2*exp(A*x(i))*X) where X is (6*1).
Walter Roberson
Walter Roberson il 19 Set 2019
When you call integral(), it is required to return an array the same size as x, which will be a vector of varying sizes. However, there is the 'vectorvalued' option for integral(), and when set then the function will be passed scalars and can return multidimensional outputs as needed.

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Walter Roberson
Walter Roberson il 13 Feb 2013
You cannot do this with numeric integration.
If you have the symbolic toolbox, then expression the function symbolically and do symbolic integration with int(). Then if you need, you can use matlabFunction to turn the symbolic result into a function handle of a numeric function.
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Adrian Martinez
Adrian Martinez il 5 Giu 2021
Can you please show an example of how to do this?
Walter Roberson
Walter Roberson il 5 Giu 2021
Ran in:
f = @(x,y) (x.^2-y.^2).*cos(x./(1+y.^2));
% Some limits of integration
a = 0;
b = 3;
syms x y
% Define g as the integral of f(x,y) dy from a to b
g(x) = int(f(x,y), y, a, b)
g(x) = 
x0 = -100;
vpasolve(g, x0)
ans = 
G = matlabFunction(g)
G = function_handle with value:
@(x)integral(@(y)cos(x./(y.^2+1.0)).*(x.^2-y.^2),0.0,3.0)
fsolve(G, x0)
Equation solved. fsolve completed because the vector of function values is near zero as measured by the value of the function tolerance, and the problem appears regular as measured by the gradient.
ans = -99.0803
In some cases, the int() step would be able to calculate a closed form expression, so G will not always end up with an integral() in it.

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Youssef Khmou
Youssef Khmou il 13 Feb 2013
Hi, try this :
syms x y
h=exp(-x^2-y^2)
F1=int(h,x)
F2=int(h,y)
Based on F1 and F2 you make function handle :
Fx=@(x) 1/2/exp(x^2)*pi^(1/2) % truncated ERF(Y)
Y=fsolve(Fx,0.1)
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Walter Roberson
Walter Roberson il 13 Feb 2013
How do you get from the "F1 and F2" to the Fx ? And where do the limits of integration over y come in?
Youssef Khmou
Youssef Khmou il 13 Feb 2013
Hi,i used the undefined integration or "primitive" , for F1 you get :
F1 =
1/2/exp(y^2)*pi^(1/2)*erf(x)
you have an analytic integration w.r.t. x, so its function of y , now manually you set a function handle Fy :
Fy=@(x) 1/2/exp(y^2)*pi^(1/2)
and then solve it with "fslove" as Alexandru said he wants to use "fslove" .

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Yang Zhang
Yang Zhang il 15 Mar 2015
Use Symbolic Math Toolbox to your problem.

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