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I gather Text documents (in Node.js) where one document i is represented as a list of words. What is an efficient way to compute the similarity between these documents, taking into account that new documents are coming as a sort of stream of documents?

I currently use cos-similarity on the Normalized Frequency of the words within each document. I don't use the TF-IDF (Term frequency, Inverse document frequency) because of the scalability issue since I get more and more documents.


My first version was to start with the currently available documents, compute a big Term-Document matrix A, and then compute S = A^T x A so that S(i, j) is (after normalization by both norm(doc(i)) and norm(doc(j))) the cos-similarity between documents i and j whose word frequencies are respectively doc(i) and doc(j).

For new documents

What do I do when I get a new document doc(k)? Well, I have to compute the similarity of this document with all the previous ones, which doesn't require to build a whole matrix. I can just take the inner-product of doc(k) dot doc(j) for all previous j, and that result in S(k, j), which is great.

The troubles

  1. Computing S in Node.js is really long. Way too long in fact! So I decided to create a C++ module which would do the whole thing much faster. And it does! But I cannot wait for it, I should be able to use intermediate results. And what I mean by "not wait for it" is both

    a. wait for the computation to be done, but also
    b. wait for the matrix A to be built (it's a big one).

  2. Computing new S(k, j) can take advantage of the fact that documents have way less words than the set of all the given words (which I use to build the whole matrix A). Thus, it looks faster to do it in Node.js, avoiding a lot of extra-resource to be taken to access the data.

But is there any better way to do that?

Note : the reason I started computing S is that I can easily build A in Node.js where I have access to all the data, and then do the matrix multiplication in C++ and get it back in Node.js, which speeds the whole thing a lot. But now that computing S gets impracticable, it looks useless.

Note 2 : yep, I don't have to compute the whole S, I can just compute the upper-right elements (or the lower-left ones), but that's not the issue. The time computation issue is not of that order.

share|improve this question
Have you had a look at random projection lsh? – Thomas Ahle Mar 30 at 12:01

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