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I have a database with 500,000 points in a 100 dimensional space, and I want to find the closest 2 points. How do I do it?

Update: Space is Euclidean, Sorry. And thanks for all the answers. BTW this is not homework.

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  • 2
    Out of interest, where did you get a 100-dimensional space?
    – Will A
    Oct 10 '10 at 5:13
  • 2
    the question lacks clarity. is this a mathematical question?
    – Sarmaad
    Oct 10 '10 at 5:14
  • 18
    @Sarmaad The question may lack many things, but it does have clarity: after reading 1 sentence I understand the problem completely. (although the type of space isn't mentioned, Euclidian is usually assumed by default) Oct 10 '10 at 5:45
  • related: stackoverflow.com/q/2486093 Beware that KDTree's approach in your case requires ~5 days of computations.
    – jfs
    Oct 11 '10 at 0:16
  • 1
    @louzer: here's brute force approach using KDTree and multiprocessing ideone.com/Z7uSc (you could test it against your solution for small number of points)
    – jfs
    Oct 11 '10 at 18:11
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There's a chapter in Introduction to Algorithms devoted to finding two closest points in two-dimensional space in O(n*logn) time. You can check it out on google books. In fact, I suggest it for everyone as the way they apply divide-and-conquer technique to this problem is very simple, elegant and impressive.

Although it can't be extended directly to your problem (as constant 7 would be replaced with 2^101 - 1), it should be just fine for most datasets. So, if you have reasonably random input, it will give you O(n*logn*m) complexity where n is the number of points and m is the number of dimensions.

edit
That's all assuming you have Euclidian space. I.e., length of vector v is sqrt(v0^2 + v1^2 + v2^2 + ...). If you can choose metric, however, there could be other options to optimize the algorithm.

7

Use a kd tree. You're looking at a nearest neighbor problem and there are highly optimized data structures for handling this exact class of problems.

http://en.wikipedia.org/wiki/Kd-tree

P.S. Fun problem!

0
6

You could try the ANN library, but that only gives reliable results up to 20 dimensions.

2
  • Thanks. ANN is just what I was looking for. Hopefully it can hold everything in RAM.
    – louzer
    Oct 11 '10 at 14:36
  • ANN is easy to use, but it should be noted that it is an approximate nearest neighbor implementation, so isn't guaranteed to be correct. Oct 12 '10 at 19:36
6

Run PCA on your data to convert vectors from 100 dimensions to say 20 dimensions. Then create a K-Nearest Neighbor tree (KD-Tree) and get the closest 2 neighbors based on euclidean distance.

Generally if no. of dimensions are very large then you have to either do a brute force approach (parallel + distributed/map reduce) or a clustering based approach.

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  • Thanks. I am reducing the dimensions as per your suggestions.
    – louzer
    Oct 11 '10 at 14:35
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    If you do run PCA 100 -> 20 dimensions, be sure to check the fraction of variance, sum( 20 eigenvalues ) / sum(all).
    – denis
    Feb 1 '11 at 14:50
4

Use the data structure known as a KD-TREE. You'll need to allocate a lot of memory, but you may discover an optimization or two along the way based on your data.

http://en.wikipedia.org/wiki/Kd-tree.

My friend was working on his Phd Thesis years ago when he encountered a similar problem. His work was on the order of 1M points across 10 dimensions. We built a kd-tree library to solve it. We may be able to dig-up the code if you want to contact us offline.

Here's his published paper: http://www.elec.qmul.ac.uk/people/josh/documents/ReissSelbieSandler-WIAMIS2003.pdf

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  • kdtrees make it easy to find a nearest neighbor to a given point in O(log n) time, as I remember. Is there an optimization to find the closest pair of points in less than O(n log n)?
    – rampion
    Oct 10 '10 at 14:46
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    -1, also according to wikipedia kD-tree are efficient if N >> 2^k (where k is dimensions and N number of points; in this case 2^100 >> 5e5 and the answer is completely misleading)
    – Unreason
    Oct 12 '10 at 13:54
  • 10d is not 100d. Even if the data points lie roughly in a 10-d plane in 100d, kd-tree can't work (imho): think of a kd-tree 100 s deep.
    – denis
    Feb 1 '11 at 14:59

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