How to use the Output function of a Cubic Spline Interpolation?

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Shady
Shady on 22 Dec 2011
Answered: Christopher Crawford on 4 Jan 2023
I'm supposed to use cubic spline interpolation to approximate a function such as: exp(-1*(X^2)) then integrate the approximated function using different methods.
What I've been able to do so far is this: x=-10:1:10 y=exp(-1*(x.^2)); plot(x,y)
Then using the Curve fitting toolbox the approximated function shown on the graph is: y=-483e-020*x^3 - 0.00286*x^2+4.54e-018*x+0.18
How can I get the same function as an output in order to use it in the integration? Thanks in Advance!

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Accepted Answer

Dr. Seis
Dr. Seis on 22 Dec 2011
Example:
x = 0:10;
y = 5 + 3*x.^2;
pp = spline(x,y);
int_y = quad(@(xx)ppval(pp,xx),x(1),x(end));
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Dr. Seis
Dr. Seis on 22 Dec 2011
I found (and modified) the example inside "doc ppval"
The part with the "@(xx)" is where a prototype (I am not sure what the technical term for it would be) of the equation is generated. For example, you could define an equation as:
myfun = @(xx)5+3*xx.^2;
Then:
int_y = quad(myfun,0,10); % which will also yield 1050
The equation prototype "myfun" does not store any data. So to see the result of evaluating "myfun" for "x" would give:
myvals = myfun(x); % which would yield [5 8 17 32 53 80 113 152 197 248 305] for x = 1:10

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More Answers (2)

Mike Hosea
Mike Hosea on 28 Dec 2011
Just wanted to add that the best way of integrating a piecewise-defined function in MATLAB is
quadgk(@(t)ppval(pp,t),x(1),x(end),'Waypoints',x)
where x is, as in the above examples, the vector of locations where the pieces of the function are joined. Supplying these "waypoints" to QUADGK allows it to integrate efficiently over any discontinuities or limited smoothness where the pieces are joined. If there is, in fact, some of that limited smoothness there, you will typically find that using QUADGK like that is significantly faster and more accurate.
Christopher Crawford
Christopher Crawford on 4 Jan 2023
Piecewise polynomials like cubic splines can be integrated analytically. This is implemented by 'ppint' (8ve), or 'fnint' (Curvefitting Toolbox), see https://www.mathworks.com/matlabcentral/answers/394457-piecewise-polynomial-integration-ppint
diff(ppval( ppint(pp), x([1,end]) ))

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