__What are Splines?__

I honestly think the Wikipedia definition is much more clear than whatever way I could define a spline, so here you go:

In mathematics, asplineis a numeric function that is piecewise-defined by polynomial functions, and which possesses a sufficiently high degree of smoothness at the places where the polynomial pieces connect (which are known asknots).

In interpolating problems,spline interpolationis often preferred to polynomial interpolation because it yields similar results to interpolating with higher degree polynomials while avoiding instability due to Runge's phenomenon. In computer graphics, parametric curves whose coordinates are given by splines are popular because of the simplicity of their construction, their ease and accuracy of evaluation, and their capacity to approximate complex shapes through curve fitting and interactive curve design.

Polynomial interpretation is where you have a set of dots/points, and you try to fit ONE polynomial function over the whole thing. Runge's phenomenon is where you try to fit a high-degree polynomial function over a set of equidistant data points, but then near the edges, really bad and big oscillations occur, which isn't really good for data analysis and prediction!

*Rutger's phenomenon, where the blue curve is a 5th order interpolating polynomial, and the green which is really oscillating, is a 9th order interpolating polynomial*

__The problem of most simple drawing applications__

__When I was a newb at android application development, I tried to make a simple drawing application to learn more about touch gestures of a mobile device. Android has good APIs for gesture detection. In your custom Canvas class that you make for your drawing application, you can override the OnTouchEvent method and handle the incoming user gestures.__

To draw what the user draws, you simply have to get the x-y point when the user first presses down on the screen, and then draw a line between that point and the point the user moves to next. This means that as the user moves his finger across the screen, Android is getting x-y coordinates every XXX milliseconds, and each XXX milliseconds, Android draws a line between the previous x-y coordinates the user was at and the current x-y coordinates the user is currently at.

This has some problems, of course. Let's say the user swiped his finger really fast in a short amount of time. Because the Android API only gets x-y coordinates of the user's finger vs. time every XXX milliseconds, the resulting line that the user drew on the drawing application doesn't look smooth. It looks like a piece-wise function of straight lines connected to each other by dots, instead of a smooth curve. Below is an illustration I made about this:

*Notice the lack of smoothness due to the C shaped curve being composed of multiple straight lines*

So, in order to fix this, all you would have to do is take the history of all these points as the user first initially presses down, until the user releases his finger, and using that list of point objects, you use spline interpolation to make the whole line smoother, and then draw that smooth line onto the canvas!