One approach would be least squares curve fitting.

You would need to fit a parameterised curve `[x(t), y(t)]`

, not a simple curve `y(x)`

. Based on your link it looks like you are trying to fit a simple curve `y(x)`

.

There's a handy least-squares spline fitting tool `SPLINEFIT`

available from the MATLAB file exchange here.

Using this tool, the following is a simple example of how you can use least-squares spline fitting to fit a smooth curve to a set of noisy data. In this case I generated 10 randomly perturbed circle data sets and then fit a spline of order 5 to the data in a least squares fashion.

```
function spline_test
%% generate a set of perturbed data sets for a circle
xx = [];
yy = [];
tt = [];
for iter = 1 : 10
%% random discretisation of a circle
nn = ceil(50 * rand(1))
%% uniform discretisation in theta
TT = linspace(0.0, 2.0 * pi, nn)';
%% uniform discretisation
rtemp = 1.0 + 0.1 * rand(1);
xtemp = rtemp * cos(TT);
ytemp = rtemp * sin(TT);
%% parameterise [xtemp, ytemp] on the interval [0,2*pi]
ttemp = TT;
%% push onto global arrays
xx = [xx; xtemp];
yy = [yy; ytemp];
tt = [tt; ttemp];
end
%% sample the fitted curve on the interval [0,2*pi]
ts = linspace(0.0, 2.0 * pi, 100);
%% do the least-squares spline fit for [xx(tt), yy(tt)]
sx = splinefit(tt, xx, 5, 'p');
sy = splinefit(tt, yy, 5, 'p');
%% evaluate the fitted curve at ts
xs = ppval(sx, ts);
ys = ppval(sy, ts);
%% plot data set and curve fit
figure; axis equal; grid on; hold on;
plot(xx, yy, 'b.');
plot(xs, ys, 'r-');
end %% spline_test()
```

Your data is obviously more complicated than this, but this might get you started.

Hope this helps.

`*.stl`

file type - a simple geometry file format for triangulated surfaces: en.wikipedia.org/wiki/STL_%28file_format%29 – Darren Engwirda Feb 6 '12 at 4:52