# Algorithm for building a graph from a set of points

I need some input on solving the following problem:

Given a set of unordered (X,Y) points, I need to reduce/simplify the points and end up with a connected graph representation.

The following image show an example of an actual data set and the corresponding desired output (hand-drawn by me in MSPaint, sorry for shitty drawing, but the basic idea should be clear enough).

Some other things:

• The input size will be between 1000-20000 points
• The algorithm will be run by a user, who can see the input/output visually, tweak input parameters, etc. So automatically finding a solution is not a requirement, but the user should be able to achieve one within a fairly limited number of retries (and parameter tweaks). This also means that the distance between the nodes on the resulting graph can be a parameter and does not need to be derived from the data.
• The time/space complexity of the algorithm is not important, but in practice it should be possible to finish a run within a few seconds on a standard desktop machine.

I think it boils down to two distinct problems:

1) Running a filtering pass, reducing the number of points (including some noise filtering for removing stray points)

2) Some kind of connect-the-dots graph problem afterwards. A very problematic area can be seen in the bottom/center part on the example data. Its very easy to end up connecting wrong parts of the graph.

Could anyone point me in the right direction for solving this? Cheers.

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So the dots on the upper graph are noise, and the thick line is the important part? –  John May 31 '13 at 18:58
@John Yeah, exactly. The dots are (mostly) concentrated around certain lines, which I need to turn into a graph. –  Jan May 31 '13 at 20:10