1

A line is a best fit for a point set S in the plane if it minimizes the sum of the distances between the points in S and the line. Assuming a convex hull algorithm is available, find the best fit line for a given point set S in the plane. This is an exercise from book Discrete and Computational GEOMETRY. I'm trying to solve this problem for months. I know how to solve it with calculus and clever bruteforce. Analytic way to solve this problem is http://mathworld.wolfram.com/LeastSquaresFittingPerpendicularOffsets.html. I'm not interested a fast or optimal solution.

  • 2
    Hello, welcome to StackOverflow! Can you please show what code have you tried so far? – uv_ Jan 17 at 8:44
  • I want to understand an algorithm or idea – Vnyemets Jan 17 at 8:56
  • It is hard to see - how convex hull is related to optimal line... – MBo Jan 17 at 9:16
  • I think this algo is not optimal and fast but the problem is very interesting for me – Vnyemets Jan 17 at 9:21
  • Example: find the shortest width of CH and make line perpendicular to that width. Will be approximation for uniform distribution, but don't work for many cases (i.e. few points form CH, but a lot of others are inside and clustered) – MBo Jan 17 at 9:26
2

Aim instead for the best-fit Chebychev line, which minimizes the maximum distance from the points to the line. This meshes better with convex hull properties.


          image
          PDF download lecture by Ion Petre.


  • Thanks for your answer! But I don't understand your idea. I'm very surprised that you is a coathor this interesting book. – Vnyemets Jan 18 at 10:33
  • 2
    @Vnyemets: It was a mistake to ask for "best fit line" without explaining in what sense. For least squares, I don't believe the convex hull can help. – Joseph O'Rourke Jan 18 at 11:09
  • Yes, this problem can be solved with linear programming. But where does convex hull algorithm apply to? – Vnyemets Jan 18 at 11:11
  • Least squares is only to find a best fit line in an analytic way. Do I misunderstood the excecise? – Vnyemets Jan 18 at 11:18

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.