Im trying to understand doc2vec and can I use it to solve my scenario. I want to label sentences with 1 or more tags using TaggedSentences([words], [tags]), but im unsure If my understanding is correct.

so basically, i need this to happen(or am I totally off the mark)

I create 2 TaggedDocuments

TaggedDocument(words=["the", "bird", "flew", "over", "the", "coocoos", "nest", labels=["animal","tree"])
TaggedDocument(words=["this", "car", "is", "over", "one", "million", "dollars", labels=["motor","money"])

I build my model

model = gensim.models.Doc2Vec(documents, dm=0, alpha=0.025, size=20, min_alpha=0.025, min_count=0)

Then I train my model

model.train(documents, total_examples=len(documents), epochs=1)

So when I have all that done, what I expect is when I execute

model.most_similar(positive=["bird", "flew", "over", "nest])

is [animal,tree], but I get

[('the', 0.4732949137687683), 
('million', 0.34103643894195557),
('dollars', 0.26223617792129517),
('one', 0.16558100283145905),
('this', 0.07230066508054733),
('is', 0.012532509863376617),
('cocos', -0.1093338280916214),
('car', -0.13764989376068115)]

UPDATE: when I infer

vec_model = model.Word2Vec.load(os.path.join("save","vec.w2v"))
infer = vec_model.infer_vector(["bird", "flew", "over", "nest"])
print(vec_model.most_similar(positive=[infer], topn=10))

I get

[('bird', 0.5196993350982666),
('car', 0.3320297598838806), 
('the',  0.1573483943939209), 
('one', 0.1546170711517334), 
('million',  0.05099521577358246),
('over', -0.0021460093557834625), 
('is',  -0.02949431538581848),
('dollars', -0.03168443590402603), 
('flew', -0.08121247589588165),
('nest', -0.30139490962028503)]

So the elephant in the room, Is doc2vec what I need to accomplish the above scenario, or should I go back to bed and have a proper think about what Im trying to achieve in life :)

Any help greatly appreciated

up vote 1 down vote accepted

It's not clear what your goal is.

Your code examples are a bit muddled; there's no way the TaggedDocument constructions, as currently shown, will result in good text examples. (words needs to be a list of words, not a string with a bunch of comma-separated tokens.)

If you ask model for similarities, you'll get words – if you want doc-tags, you'll have to ask the model's docvecs sub-property. (That is, model.docvecs.most_similar().)

Regarding your training parameters, there's no good reason to change the default min_alpha to be equal to the starting-alpha. A min_count=0, retaining all words, usually makes word2vec/doc2vec vectors worse. And the algorithm typically needs many passes over the data – usually 10 or more – rather than one.

But also, word2vec/doc2vec really needs bulk data to achieve its results – toy-sized tests rarely show the same beneficial properties that are possible with larger datasets.

  • 1
    Big thanks for the reply gojomo :), so iv fixed the typos in the above code snippets (list of strings), Iv also tried to understand min_count and min_alpha a bit better. :) I re run the code using docvecs.most_similar() and I am indeed getting back the correct ranked labels that I expect. Im pretty new to ML and really appreciate the feed back. Not I have to get a bigger data set with some good data to play with. My Journey continues :) – rogger2016 Oct 11 '17 at 9:14
  • It's not clear what your goal is. > Im trying to label a sentence with labels from a similar sentence – rogger2016 Oct 11 '17 at 10:05
  • I'm also a bit confused as to if I have 100 docs with unique sentences and labels, if I run a query that exactly matches a sentence I'd expect to get a specific label...each time it's gives me different label...should this happen? – rogger2016 Oct 11 '17 at 21:58
  • 1
    There's inherent randomness used in Doc2Vec training/inference, so you won't get identical vectors from run-to-run (without extra effort), But they should be similar, and moreso if the model/inference is being run with sufficient data & good parameters. When re-inference of a training text doesn't bring back as most_similar() that text's training tags, common reasons are: (1) needs more inference effort (esp. on small texts) - default steps often too few; (2) not preprocessing inference same as training; (3) too little data (or too large/'overfit' model). – gojomo Oct 12 '17 at 18:25
  • 1
    (Essentially with 'largish' model compared to 'smallish' data, model can get good at training objective without generalizable forced-'densification' of the input space... & thus the same/similar texts later might, with slightly diff starting randomizations, wind up with quite diff vectors, especially for short texts or few iterations. More iterations, more data, or smaller vector sizes might help... but really you want many tens-of-thousands or millions of examples, even to train up ~100+ dimensional vectors. 100 examples into 20 dimensions, and esp if examples are short, stretching it.) – gojomo Oct 12 '17 at 18:30

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