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Okay, so usually topic models (such as LDA, pLSI, etc.) are used to infer topics that may be present in a set of documents, in an unsupervised fashion. I would like to know if anyone has any ideas as to how I can shoehorn my problem into an LDA framework, as there are very good tools available to solve LDA problems.

For the sake of being thorough, I have the following pieces of information as input:

  • A set of documents (segments of DNA from one organism, where each segment is a document)
    • A document can only have one topic in this scenario
  • A set of topics (segments of DNA from other organisms)
  • Words in this case are triplets of bases (for now)

The question I want to answer is: For the current document, what is its topic? In other words, for the given DNA segment, which other organism (same species) did it most likely come from? There could have been mutations and such since the exchange of segments occurred, so the two segments won't be identical.

The main difference between this and the classical LDA model is that I know the topics ahead of time.

My initial idea was to take a pLSA model ( and just set the topic nodes explicitly, then perform standard EM learning (if only there were a decent library that could handle Bayesian parameter learning with latent variables...), followed by inference using whatever algorithm (which shouldn't matter, because the model is a polytree anyway).

Edit: I think I've solved it, for anyone who might stumble across this. I figured out that you can use labelled LDA and just assign every label to every document. Since each label has a one-to-one correspondence with a topic, you're effectively saying to the algorithm: for each document, choose the topic from this given set of topics (the label set), instead of making up your own.

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1 Answer 1

Why not simply use a supervised topic model. Jonathan Chang's lda package in R has an slda function that is quite nice. There is also a very helpful demo. Just install the package and run demo(slda).

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Thanks for the suggestion, but a supervised topic model is meant to solve a subtly different problem. The aspect of the problem that is "supervised" is different -- in supervised LDA, the set of topics is still latent, but you are given documents paired with correct responses. However, in my problem, you are given supervisory information about the topics themselves (as in, the set of allowable topics), and asked to assign a distribution of topics to each input document. The core prediction task is still unsupervised, because we do not have information about which topics go with which documents – user1871183 Jun 11 '13 at 22:16
Oh, and we also know the (empirical) word distribution for each of the topics. Forgot to add that. – user1871183 Jun 11 '13 at 22:20

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