integral with vectoric varying coeficient

6 May 2020
2 Answers
Answer Accepted
Updated 7 May 2020
1 View (30 days)

0 votes

Hello , i have a basic function
exp(-x.^2).*log(x).^2
which i integrate in a certain interval.
i want to multiply my basic function with a vectoric coefficient called coef_vec that varies with the interval.
so if the integral is at 5 my basic function whould be multiplied with coef_vec(5).
i know that its some how turning the integral into a loop.
Is it possible in matlab?
Thanks.
coef_vec=linspace(1,10,100)
fun = @(x)coef_vec*exp(-x.^2).*log(x).^2;
q = integral(fun,1,10);

Sign in to answer this question.

 Accepted Answer

Ameer Hamza
Ameer Hamza on 6 May 2020
Edited: Ameer Hamza on 6 May 2020

0 votes

You need to consider that value of x is not always an integer, it can be a floating-point too. In that case, coef_vec(x) will fail. You need to interpolate your vector to give value on that range. Try this code
coef_vec = linspace(1,10,100);
coef_fun = @(x) interp1(1:numel(coef_vec), coef_vec, x);
fun = @(x) coef_fun(x).*exp(-x.^2).*log(x).^2;
q = integral(fun,1,10);

5 Comments
Show 3 older comments Hide 3 older comments

fima v
fima v on 6 May 2020
Hello Ameer, actually my coefficient has a filter like shape and polifit if not work for it
because of the blank space of the filter.
I get a polinomial wich gives me a pointy hill ratther than a filter plot as shown bellow.
and i tried polyfit of 5 order
What could be done to interpolate such filter shape?
Thanks.
Ameer Hamza
Ameer Hamza on 6 May 2020
polyfit, gives a single polynomial curve. interp1() interpolate locally. Please try to see if interp1() gives the required interpolation behavior?
fima v
fima v on 7 May 2020
Hello Ameer, but i need a continues formula to use in my integral.
vq = interp1(x,v,xq)
how do i convert my vq data into a contines formula?
Thanks.
Ameer Hamza
Ameer Hamza on 7 May 2020
Edited: Ameer Hamza on 7 May 2020
I have defined coef_fun as a function handle using interp1 so that it can be continually evaluated at all the points. If you just use interp1 alone, then you will again get a finite vector. The function handle allows the integral to evaluate interp1 at an arbitrary point.
Following code shows the difference between interp1 and polyfit
x = 0:0.1:10;
coef_vec = gensig('square', 2, 10, 0.1) + 0.1*rand(size(x)).';
coef_fun = @(xq) interp1(x, coef_vec, xq);
xq = linspace(0, 10, 200);
p = polyfit(x, coef_vec, 10);
figure;
plot(x, coef_vec, '+-', xq, polyval(p, xq), '-o')
title('Polyfit')
figure;
plot(x, coef_vec, '+-', xq, coef_fun(xq), '-o')
title('interp1')
Ameer Hamza
Ameer Hamza on 7 May 2020
Try this
data = load('Default Dataset4.csv');
x = data(:,1);
y = data(:,2);
[x, index] = unique(x);
coef_fun = @(xq) interp1(x, y(index), xq);
xq = linspace(3.5,23,100000);
plot(xq, coef_fun(xq))
title('interp1')

Sign in to comment.

More Answers (1)

David Hill
David Hill on 6 May 2020

0 votes

Why not do it after computing the integral since it is a constant.
fun = @(x)coef_vec*exp(-x.^2).*log(x).^2;
q = integral(fun,1,10);
q=q*linspace(1,10,100);

1 Comment
Show -1 older comments Hide -1 older comments

fima v
fima v on 6 May 2020
because i want the coeffecient to be tied to the interval
so it needs to be during the integration.

Sign in to comment.

Categories

Find more on Logical in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!