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I'm using vectors to represent context around words and I need to compare contexts with each other. The following is a simplified version of my problem:

Let's say I have a vector a=[1,1,15,2,0]. Then I have a vector b=[0,0,15,0,0] and c=[1,1,11,0,1]. When comparing the two vectors by cosine similarity b is closest to a. However, since the vectors are representing context c makes more sense in my case since b is just a context which happens to have one word common with the original and has the same score.

How could I return c as the most similar? Another similarity measure? Or maybe my reasoning is flawed somewhere?

As I've said, this is a simplification of my problem. I am already normalizing the vectors and for scoring context words I'm using log-likelihood.


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What do the numbers in these vectors represent? –  larsmans Mar 16 '13 at 23:04

1 Answer 1

Use Jaccard similarity. In the Python demo below, keep in mind that the functions cosine and jaccard return distance, which is the "inverse" of similarity, and read the comments:

# Input all the data
In [19]: from scipy.spatial.distance import cosine, jaccard
In [24]: a
Out[24]: array([ 1,  1, 15,  2,  0])
In [25]: b
Out[25]: array([ 0,  0, 15,  0,  0])
In [26]: c
Out[26]: array([ 1,  1, 11,  0,  1])
# Calculate cosine similarity. I've scaled it by a factor of 100 for legibility
In [20]: 100*cosine(a,b)
Out[20]: 1.3072457560346473
In [21]: 100*cosine(c,a)
Out[21]: 1.3267032349480568
# Note c is slightly "further away" from a than b.
# Now let's see what Mr Jaccard has to say
In [28]: jaccard(a,b)
Out[28]: 0.75
In [29]: jaccard(a,c)
Out[29]: 0.59999999999999998
# Behold the desired effect- c is now considerably closer to a than b
# Sanity check- the distance between a and a is 0
In [30]: jaccard(a,a)
Out[30]: 0.0

PS Many more similarity measures exist, and each is appropriate under different circumstances. Do you have a good reason to believe c should be more similar to a than b? What is your task? If you want to read more about the subject, I highly recommend this PhD thesis. Warning: 200 pages long.

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If these vectors are what I think they are (indices of words in a vocabulary), this way of computing cosine similarity makes no sense. Also, that link is dead. –  larsmans Mar 16 '13 at 23:14
I interpret them as co-occurrence counts. If they are not, I'll edit or delete my post. –  mbatchkarov Mar 16 '13 at 23:16
Fair enough. Surprising that such an ambiguous question would get two upvotes. –  larsmans Mar 16 '13 at 23:19
I've been staring at count vectors for so long now that I didn't even think it's ambiguous :D –  mbatchkarov Mar 16 '13 at 23:36
I've been staring at completely different context vectors for quite some time... –  larsmans Mar 17 '13 at 10:03

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