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I noticed that LSH seems a good way to find similar items with high-dimension properties.

After reading the paper http://www.slaney.org/malcolm/yahoo/Slaney2008-LSHTutorial.pdf, I'm still confused with those formulas.

Does anyone know a blog or article that explains that the easy way?

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4 Answers

up vote 100 down vote accepted

The best tutorial I have seen for LSH is in the book: Mining of Massive Datasets. Check Chapter 3 - Finding Similar Items http://infolab.stanford.edu/~ullman/mmds/ch3a.pdf

Also I recommend the below slide: http://www.cs.jhu.edu/%7Evandurme/papers/VanDurmeLallACL10-slides.pdf . The example in the slide helps me a lot in understanding the hashing for cosine similarity.

I borrow two slides from Benjamin Van Durme & Ashwin Lall, ACL2010 and try to explain the intuitions of LSH Families for Cosine Distance a bit. enter image description here

  • In the figure, there are two circles w/ red and yellow colored, representing two two-dimensional data points. We are trying to find their cosine similarity using LSH.
  • The gray lines are some uniformly randomly picked planes.
  • Depending on whether the data point locates above or below a gray line, we mark this relation as 0/1.
  • On the upper-left corner, there are two rows of white/black squares, representing the signature of the two data points respectively. Each square is corresponding to a bit 0(white) or 1(black).
  • So once you have a pool of planes, you can encode the data points with their location respective to the planes. Imagine that when we have more planes in the pool, the angular difference encoded in the signature is closer to the actual difference. Because only planes that resides between the two points will give the two data different bit value.

enter image description here

  • Now we look at the signature of the two data points. As in the example, we use only 6 bits(squares) to represent each data. This is the LSH hash for the original data we have.
  • The hamming distance between the two hashed value is 1, because their signatures only differ by 1 bit.
  • Considering the length of the signature, we can calculate their angular similarity as shown in the graph.

I have some sample code (just 50 lines) in python here which is using cosine similarity. https://gist.github.com/94a3d425009be0f94751

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why it is called locality sensitive ?because the assignement of each bit is depend on the locality of the data point towards each plan ? –  nawara Jun 3 '13 at 20:31
locality sensitive -- data points that are located close to each other are mapped to similar hashes (in same bucket with high probability). –  greeness Jun 5 '13 at 22:42
Sorry I am late in this topic but I had a question about the cosine. The presentation says that the bit value is one if the dot product between the actual vector and the plane vector >= 0 or else it is 0. What is the direction of the plane vector because angles between 90 degrees and 180 degrees also will give a cosine which is negative. I suppose each plane is composed of two vectors and we take the smaller angle that is made with the actual vector. –  vkaul11 Jul 17 '13 at 21:53
Well said on a complicated topic. I'd give you more than one vote if I could. –  EBarr Jul 29 '13 at 20:11
Thank you. This is a beautiful explanation. I too would give you extra votes if I could. –  David Parmenter Aug 28 '13 at 15:31
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Tweets in vector space can be a great example of high dimensional data.

Check out my blog post on applying Locality Sensitive Hashing to tweets to find similar ones.


And because one picture is a thousand words check the picture below:

enter image description here http://micvog.files.wordpress.com/2013/08/lsh1.png

Hope it helps. @mvogiatzis

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Read Ullman Chapter 3 - "FINDING SIMILAR ITEMS"


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Please, try to read this stackoverflow.com/help/deleted-answers, to get more understanding how to not answer. Namely: "Answers that do not fundamentally answer the question": barely more than a link to an external site –  Radim Köhler Nov 15 '13 at 3:34
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Here are two presentations from Stanford that explains it. It made a big difference for me. Part two is more into LSH, even if part one covers it as well.

Here is a picture of the overview (There are much more candy in the slides):

enter image description here

Near Neighbor Search in High Dimensional Data - Part1: http://www.stanford.edu/class/cs345a/slides/04-highdim.pdf

Near Neighbor Search in High Dimensional Data - Part2: http://www.stanford.edu/class/cs345a/slides/05-LSH.pdf

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