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I'm using LibSVM (in Java fwiw) to classify text samples into one of two categories: english or spanish language. I'm training on three texts in each language, for a total of roughly 50,000 words each. I'm then testing on a number of shorter texts and checking for appropriate classification. Some of the testing data is drawn from the training data (trivial, but essentially done as a sanity check) and the rest is new.

To build the SVM vectors, I have been parsing text into ngrams, and then hashing these ngrams to get numerical representations. For instance, the following vector:

2.0 1:9.0 2:3.0 3:1.0 4:7.0 5:4.0 ...

with label 2 implies 9 ngrams hashed to value 1, 3 ngrams hashed to value 2, and so on.

This has been working well for me when using unigrams, but for some reason as soon as I switch to bigrams or higher order n-grams, classification entirely fails. Can you think of any reason why this might be the case? The size of my feature set is bounded at 4999 (ie. I mod each hash so that it is no bigger than 4999). I've tried increasing and decreasing this bound but to no avail.

Does anybody know where the problem might be coming from? Might my corpora be too small, or is it a problem with my approach to tokenization / building feature vectors?

Thanks in advance for your help.

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My first thought is that perhaps you are getting too many hash conflicts? What hash algorithm are you using? I would sanity check the hash and see how often you get two different n-grams hashing to the same value. –  karenu Mar 20 '12 at 16:06
The function I'm using is relatively trivial: Math.abs(text.hashCode() % _hash_size) where _hash_size is the bound on the feature set size (ie. 4999). I haven't actually measured collision rate, but I assume the collisions are pretty low before I do the mod operation. As for quantifying the impact of the mod operation, I tried increasing the feature set size (ie. to ~100k) and this didn't any difference. –  Geoffroy Mar 20 '12 at 16:15
Sure, by modding the result you are causing collisions but the collisions are only partially related to the feature size, without the mod if you have over 50,000 different n-grams with java's hashCode you will start getting collisions. I'm assuming if you have several texts with over 50,000 words, you have more n-grams than that. Hash functions are not all created equal, I would use a cryptographic hash function like MD5 which has a much higher collision rate. I also wouldn't cut the feature set down by modding it like that - use a feature selection algorithm. –  karenu Mar 20 '12 at 20:39
Okay, that aside - you are processing these 3 texts and so you basically have only 3 training samples? –  karenu Mar 20 '12 at 20:41
@karenu, thanks for your help. Looking into this a bit more, it seems like my training data probably is too sparse. I'm going to up it from ~ 50k words to something like 500k words split into more vectors. I'll also change the hash function - I assume you mean MD5 has a lower collision rate, right? Finally, what do you mean by a feature selection algorithm? –  Geoffroy Mar 20 '12 at 21:56

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