I'm working on an application that records strokes, which you paint with a pointing device.
In the image above, I've drawn a single stroke, which contains 453 data points. My goal would be to drastically reduce the amount of data points while still maintaining the shape of the original stroke.
For those interested, the coordinates for the stroke pictured above are available as a gist on GitHub.
As a matter of fact, Adobe Illustrator has a great implementation of what I'm trying to achieve. If I draw a similar stroke (with a calligraphic brush) in Illustrator, the resulting shape will be simplified to what we see below. While drawing the stroke, it will look very similar to the one in my application. Once I release the mouse button, the curve will be simplified to what we see here:
As we can see, the stroke only has 14 data points. Though there are additional control points which define the inclination of the bezier spline (or whatever spline it is they're using). Here we can see a few of those control points:
I have looked at algorithms like Ramer–Douglas–Peucker algorithm, but those seem to only remove points from the input set. If I'm not mistaken, the approach I'm looking for would also have to introduce new points into the set to achieve the desired curve.
I have come across questions like iPhone smooth sketch drawing algorithm which seem related. But those seem to focus on creating a smooth curve from a small set of input points. I feel like I have the opposite case.