Recently there was an email making the rounds at MathWorks about how to calculate the
area volume under a surface. Not surprisingly,
there were several methods chosen, based on each sender's proclivities. Here are some of the ways.
If you have data already on a regular grid, you can simply call trapz twice, once along the X dimension, and once along Y. Here's an example. Let's first make some random x and y points.
xdata = [0; rand(100,1); 1]; ydata = [0; rand(100,1); 1]; x = sort(xdata); y = sort(ydata);
For now, let's calculate our gridded sampled function. Then use trapz twice.
[X,Y] = meshgrid(x,y); Z = X.^2.*sin(3*(X-Y)); trapz(y,trapz(x,Z,2),1)
ans = 0.13173
Let's compare the result to one using dblquad.
F = @(x,y)(x.^2).*sin(3*(x-y)); dblquad(F,0,1,0,1)
ans = 0.13173
MATLAB has the ability to deal with scattered data in a variety of ways. I've just shown, using meshgrid a technique for integrating a function that you know by sampling, and comparing this result to numerically integrating the same function that generated the samples. I'll take advantage of some of the newer computational geometry functionality in MATLAB in this next attempt.
load seamount minz = min(z); zadj = z-min(z);
Note that I "normalized" the depth data (z), since it is negative, and changed it into the array zadj that is all non-negative. Next I create an interpolant from the scattered data. Then integrate this function using quad2d, but not before trimming the minimum and maximum values for x and y so I won't run into extrapolated values (which are NaN).
F2 = TriScatteredInterp(x,y,zadj); q1 = quad2d(@(x,y) F2(x,y),211.1,211.4,-48.35,-48,'AbsTol',0.01)
q1 = 136.04
If you have access to Curve Fitting Toolbox, you can take advantage of the relatively new capability for fitting surfaces. I'll use the same seamount data as before,
created a fit to the data, and, from the function that comes from the fit, use quad2d again to compute the
f = fit([x, y], zadj, 'linearinterp'); q2 = quad2d(f,211.1,211.4,-48.35,-48,'AbsTol',0.01)
q2 = 136.04
If you have scattered data representing a surface, how do you think about it and work with it - numerically or by fitting a function of some sort? Do you have other techniques? Let me know here.
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