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I am currently working on a neural network based approach to short document classification, and since the corpuses I am working with are usually around ten words, the standard statistical document classification methods are of limited use. Due to this fact I am attempting to implement some form of automated synonym detection for the matches provided in the training. My question more specifically is about resolving a situation as follows:

Say I have classifications of "Involving Food", and one of "Involving Spheres" and a data set as follows:

"Eating Apples"(Food);"Eating Marbles"(Spheres); "Eating Oranges"(Food, Spheres);
"Throwing Baseballs(Spheres)";"Throwing Apples(Food)";"Throwing Balls(Spheres)";
"Spinning Apples"(Food);"Spinning Baseballs";

I am looking for an incremental method that would move towards the following linkages:

Eating --> Food
Apples --> Food
Marbles --> Spheres
Oranges --> Food, Spheres
Throwing --> Spheres
Baseballs --> Spheres
Balls --> Spheres
Spinning --> Neutral
Involving --> Neutral

I do realize that in this specific case these might be slightly suspect matches, but it illustrates the problems I am having. My general thoughts were that if I incremented a word for appearing opposite the words in a category, but in that case I would end up incidentally linking everything to the word "Involving", I then thought that I would simply decrement a word for appearing in conjunction with multiple synonyms, or with non-synonyms, but then I would lose the link between "Eating" and "Food". Does anyone have any clue as to how I would put together an algorithm that would move me in the directions indicated above?

  • 1
    You have a bunch of small sentences each with one of two labels, and you are looking for a way to associate each token in your vocabulary with the label it seems to be better related to or Neutral. Certain key terms are present in sentences coming from both labels, and you are trying to look for a clever way to give them the right label? Is that your question? Where do the notion of synonyms come into this whole paradigm? – Aditya Mukherji Jul 7 '12 at 6:31
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    This is only an example. In the actual implementation of this my sentences are considerably longer, and there are about 3000 labels, rather than the two. The synonym problem here is, perhaps using a loose definition of a synonym, but essentially being able to say that marbles are synonymous with spheres. I'm looking for thoughts on statistically incrementing words towards being synonyms in a pattern that would mimic that shown above. – Slater Victoroff Jul 9 '12 at 12:34
  • Does it have to be a neural network? In your comments to steve's answer you seem to be open to alternative approaches (such as LDA), too (although you eventually dismissed LDA). – jogojapan Jul 11 '12 at 1:32
  • It does not need to be a neural network necessarily, so long as it is the right tool for the job. A neural network seemed most sensible to be, but if there is a better approach out there I would love to hear it. – Slater Victoroff Jul 11 '12 at 13:26
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+50

There is an unsupervized boot-strapping approach that was explained to me to do this.

There are different ways of applying this approach, and variants, but here's a simplified version.

Concept:

Start by a assuming that if two words are synonyms, then in your corpus they will appear in similar settings. (eating grapes, eating sandwich, etc.)

(In this variant I will use co-occurence as the setting).

Boot-Strapping Algorithm:

We have two lists,

  • one list will contain the words that co-occur with food items
  • one list will contain the words that are food items

Supervized Part

Start by seeding one of the lists, for instance I might write the word Apple on the food items list.

Now let the computer take over.

Unsupervized Parts

It will first find all words in the corpus that appear just before Apple, and sort them in order of most occuring.

Take the top two (or however many you want) and add them into the co-occur with food items list. For example, perhaps "eating" and "Delicious" are the top two.

Now use that list to find the next two top food words by ranking the words that appear to the right of each word in the list.

Continue this process expanding each list until you are happy with the results.

Once that's done

(you may need to manually remove some things from the lists as you go which are clearly wrong.)

Variants

This procedure can be made quite effective if you take into account the grammatical setting of the keywords.

Subj ate NounPhrase
NounPhrase are/is Moldy

The workers harvested the Apples. 
   subj       verb     Apples 

That might imply harvested is an important verb for distinguishing foods.

Then look for other occurrences of subj harvested nounPhrase

You can expand this process to move words into categories, instead of a single category at each step.

My Source

This approach was used in a system developed at the University of Utah a few years back which was successful at compiling a decent list of weapon words, victim words, and place words by just looking at news articles.

An interesting approach, and had good results.

Not a neural network approach, but an intriguing methodology.

Edit:

the system at the University of Utah was called AutoSlog-TS, and a short slide about it can be seen here towards the end of the presentation. And a link to a paper about it here

  • Well, this method isn't explicitly for a neural net, but the general method of finding similar words is the first method suggested here that is actually directly applicable to my problem. Again, this is definitely made for a larger corpus, but I think it should work if I make each seeding tree essentially an incrementation tree instead where a hit within a tree increments the link between the documents and the lack of a hit decrements it. – Slater Victoroff Jul 16 '12 at 13:04
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You could try LDA which is unsupervised. There is a supervised version of LDA but I can't remember the name! Stanford parser will have the algorithm which you can play around with. I understand it's not the NN approach you are looking for. But if you are just looking to group information together LDA would seem appropriate, especially if you are looking for 'topics'

  • That seems like a good place to start, but one problem that I'm finding is that unlike in LDA, and in PLSI, where there is a definite separation between documents and topics, in my case they are the same, and it will require some tweaking to overcome, I will investigate calling my words topics, and my topics documents, but I don't know if that will work. – Slater Victoroff Jul 6 '12 at 22:31
  • LDA will sadly not work for my application. I looked a good deal into it, and LDA requires a considerable amount of metadata concerning both topics, and words within those topics, and my documents simply are far too short for this metadata to be accessible. I also don't really have a need for the open chain of causality provided by LDA, though LDA does seem very cool and I will try to implement it on some project in the future. – Slater Victoroff Jul 6 '12 at 22:37
  • What does LDA stand for? a google search doesn't bring anything useful up, nor does wikipedia recognize the acronym LDA as anything related, closest was Statistics for Latent Dirichlet Allocation, could that be what you mean? – Xantix Jul 14 '12 at 6:04
  • Latent Dirichlet Allocation seems right. – tripleee Jul 16 '12 at 15:42
  • Latent Dirichlet Allocation is in fact correct. If you're interested in similar things it's probably worth looking into PLSI (Probabalistic latent semantic indexing) and Pachinko allocation, Pachinko allocation is pretty new but seems to be surpassing LDA all around. – Slater Victoroff Jul 16 '12 at 17:42
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The code here (http://ronan.collobert.com/senna/) implements a neural network to perform a variety on NLP tasks. The page also links to a paper that describes one of the most successful approaches so far of applying convolutional neural nets to NLP tasks.

It is possible to modify their code to use the trained networks that they provide to classify sentences, but this may take more work than you were hoping for, and it can be tricky to correctly train neural networks.

I had a lot of success using a similar technique to classify biological sequences, but, in contrast to English language sentences, my sequences had only 20 possible symbols per position rather than 50-100k.

One interesting feature of their network that may be useful to you is their word embeddings. Word embeddings map individual words (each can be considered an indicator vector of length 100k) to real valued vectors of length 50. Euclidean distance between the embedded vectors should reflect semantic distance between words, so this could help you detect synonyms.

For a simpler approach WordNet (http://wordnet.princeton.edu/) provides lists of synonyms, but I have never used this myself.

  • Maybe I'm just missing something, but it doesn't seem like senna is really the best tool for this. The closest thing to document classification they actually have benchmarks for it named entity recognition which is a very distinct problem. A very neat program yes, but unless I'm missing something, which I may be, it seems unrelated to my question. Especially since they have no notion of synonym identification. I already have the neural network part mapped out, but again this might just be my ignorance. – Slater Victoroff Jul 10 '12 at 22:50
  • Figure 2 on page 8 of "Natural Language Processing (almost) from Scratch" shows their sentence approach network. You would need to modify the final layer to take your output categories. Alternatively, you could try adding a lookup table layer to your network – user1149913 Jul 11 '12 at 0:19
  • Your criticisms are flawed. Also, the word embeddings, which is what you should be interested in (and took 2 months to train), are included in the software package distributed by the authors. – user1149913 Jul 11 '12 at 13:56
  • Please explain why my criticisms are flawed if you would be so kind. Also their word embeddings were trained on a completely separate corpus from mine, and with that lack of domain specificity since I am working in a very particular domain they are essentially useless to me. – Slater Victoroff Jul 11 '12 at 19:53
  • Here is an explanation of your critisms: (1) For features, the basic approach uses a dictionary of the 100k most common works from the Wall Street Journal corpus. The words are mapped to lowercase and a capitalization feature is added. This approach for creating feature vectors from words is basically the simplest you can get in NLP. NN's cannot be trained unless you map the input to some sort of vector representation (p.2477). (2) No small corpus data is presented in the paper. Only results from the 4 benchmark datasets for POS, Chunking, NER, and SRL. – user1149913 Jul 12 '12 at 13:12
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I'm not sure if I misunderstand your question. Do you require the system to be able to reason based on your input data alone, or would it be acceptable to refer to an external dictionary?

If it is acceptable, I would recommend you to take a look at http://wordnet.princeton.edu/ which is a database of English word relationships. (It also exists for a few other languges.) These relationships include synonyms, antonyms, hyperonyms (which is what you really seem to be looking for, rather than synonyms), hyponyms, etc.

The hyperonym / hyponym relationship links more generic terms to more specific ones. The words "banana" and "orange" are hyponyms of "fruit"; it is a hyperonym of both. http://en.wikipedia.org/wiki/Hyponymy Of course, "orange" is ambiguous, and is also a hyponym of "color".

You asked for a method, but I can only point you to data. Even if this turns out to be useful, you will obviously need quite a bit of work to use it for your particular application. For one thing, how do you know when you have reached a suitable level of abstraction? Unless your input is hevily normalized, you will have a mix of generic and specific terms. Do you stop at "citrus","fruit", "plant", "animate", "concrete", or "noun"? (Sorry, just made up this particular hierarchy.) Still, hope this helps.

  • Thanks for the suggestion, and I've looked into wordnet, but as you mentioned it would require a lot of work for this application, and I have pretty bad experiences with wordnet for specificity. The synonym lookups are also dreadfully slow when you have to run them very often. – Slater Victoroff Jul 16 '12 at 12:50
  • If wordnet had synsets that were well matched with my needs then yes this would be exactly what I need, but sadly wordnet loses a lot of precision to accommodate it's generality. – Slater Victoroff Jul 16 '12 at 17:43

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