Recently I have been trying to train n-gram entities with Stanford Core NLP. I have followed the following tutorials - http://nlp.stanford.edu/software/crf-faq.shtml#b

With this, I am able to specify only unigram tokens and the class it belongs to. Can any one guide me through so that I can extend it to n-grams. I am trying to extract known entities like movie names from chat data set.

Please guide me through in case I have mis-interpretted the Stanford Tutorials and the same can be used for the n-gram training.

What I am stuck with is the following property

#structure of your training file; this tells the classifier
#that the word is in column 0 and the correct answer is in
#column 1
map = word=0,answer=1

Here the first column is the word (unigram) and the second column is the entity, for example

I   O
Emma    PERS
Woodhouse   PERS

Now that I need to train known entities (say movie names) like Hulk, Titanic etc as movies, it would be easy with this approach. But in case I need to train I know what you did last summer or Baby's day out, what is the best approach ?

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    Dear @Arun did you succeeded to train NER for n-grams? I want to train education like , Master in Science : EDUCATION , PhD in Electronics : EDUCATION. Can you guide me? Thanks Jan 19 '17 at 13:43
  • @KhalidUsman, Thanks for reaching out. I have used LingPipe as in below answer to achieve this. Worked very well with pretty decent volume of training dataset. Any model would work fine only depending on how good the data set you provide it to learn.
    – Arun A K
    Jan 19 '17 at 16:48

It had been a long wait here for an answer. I have not been able to figure out the way to get it done using Stanford Core. However mission accomplished. I have used the LingPipe NLP libraries for the same. Just quoting the answer here because, I think someone else could benefit from it.

Please check out the Lingpipe licencing before diving in for an implementation in case you are a developer or researcher or what ever.

Lingpipe provides various NER methods.

1) Dictionary Based NER

2) Statistical NER (HMM Based)

3) Rule Based NER etc.

I have used the Dictionary as well as the statistical approaches.

First one is a direct look up methodology and the second one being a training based.

An example for the dictionary based NER can be found here

The statstical approach requires a training file. I have used the file with the following format -

<s> data line with the <ENAMEX TYPE="myentity">entity1</ENAMEX>  to be trained</s>
<s> with the <ENAMEX TYPE="myentity">entity2</ENAMEX>  annotated </s>

I then used the following code to train the entities.

import java.io.File;
import java.io.IOException;

import com.aliasi.chunk.CharLmHmmChunker;
import com.aliasi.corpus.parsers.Muc6ChunkParser;
import com.aliasi.hmm.HmmCharLmEstimator;
import com.aliasi.tokenizer.IndoEuropeanTokenizerFactory;
import com.aliasi.tokenizer.TokenizerFactory;
import com.aliasi.util.AbstractExternalizable;

public class TrainEntities {

    static final int MAX_N_GRAM = 50;
    static final int NUM_CHARS = 300;
    static final double LM_INTERPOLATION = MAX_N_GRAM; // default behavior

    public static void main(String[] args) throws IOException {
        File corpusFile = new File("inputfile.txt");// my annotated file
        File modelFile = new File("outputmodelfile.model"); 

        System.out.println("Setting up Chunker Estimator");
        TokenizerFactory factory
            = IndoEuropeanTokenizerFactory.INSTANCE;
        HmmCharLmEstimator hmmEstimator
            = new HmmCharLmEstimator(MAX_N_GRAM,NUM_CHARS,LM_INTERPOLATION);
        CharLmHmmChunker chunkerEstimator
            = new CharLmHmmChunker(factory,hmmEstimator);

        System.out.println("Setting up Data Parser");
        Muc6ChunkParser parser = new Muc6ChunkParser();  
        parser.setHandler( chunkerEstimator);

        System.out.println("Training with Data from File=" + corpusFile);

        System.out.println("Compiling and Writing Model to File=" + modelFile);


And to test the NER I used the following class

import java.io.BufferedReader;
import java.io.File;
import java.io.FileReader;
import java.util.ArrayList;
import java.util.Set;

import com.aliasi.chunk.Chunk;
import com.aliasi.chunk.Chunker;
import com.aliasi.chunk.Chunking;
import com.aliasi.util.AbstractExternalizable;

public class Recognition {
    public static void main(String[] args) throws Exception {
        File modelFile = new File("outputmodelfile.model");
        Chunker chunker = (Chunker) AbstractExternalizable
        String testString="my test string";
            Chunking chunking = chunker.chunk(testString);
            Set<Chunk> test = chunking.chunkSet();
            for (Chunk c : test) {
                System.out.println(testString + " : "
                        + testString.substring(c.start(), c.end()) + " >> "
                        + c.type());


Code Courtesy : Google :)

  • tech.groups.yahoo.com/group/LingPipe/message/68 provides more information on the corpus preparation.
    – Arun A K
    May 10 '13 at 5:50
  • I also tried the same code. Can u plz mention how did u prepare the training set.I added this as a text file and tried to add my own entity but it's not working ...plz help me .I don't know if I had misinterpreted about the training set
    – lulu
    Apr 19 '14 at 17:28
  • The <ENAMEX TYPE="ORGANIZATION">USAir</ENAMEX> flight attendant in the rear of the plane making a short flight to <ENAMEX TYPE="LOCATION">Charlotte</ENAMEX>, <ENAMEX TYPE="LOCATION">N.C.</ENAMEX>, kept peeking around the corner of a seat in Row 21, making 9-month-old <ENAMEX TYPE="PERSON">Danasia Brown</ENAMEX> laugh.
    – lulu
    Apr 19 '14 at 17:32
  • The training set used is of the same format that I have discussed above. You would require quite a lot of data for the model to 'learn'. Probably some news articles or wiki pages etc etc in well formed sentences.
    – Arun A K
    Apr 20 '14 at 5:03
  • Please check out the entire discussions at groups.yahoo.com/neo/groups/LingPipe/conversations/topics/68
    – Arun A K
    Apr 20 '14 at 5:04

The answer is basically given in your quoted example, where "Emma Woodhouse" is a single name. The default models we supply use IO encoding, and assume that adjacent tokens of the same class are part of the same entity. In many circumstances, this is almost always true, and keeps the models simpler. However, if you don't want to do that you can train NER models with other label encodings, such as the commonly used IOB encoding, where you would instead label things:

Emma    B-PERSON
Woodhouse    I-PERSON

Then, adjacent tokens of the same category but not the same entity can be represented.


I faced the same challenge of tagging ngram phrases for automative domain.I was looking for an efficient keyword mapping that can be used to create training files at a later stage. I ended up using regexNER in the NLP pipeline, by providing a mapping file with the regular expressions (ngram component terms) and their corresponding label. Note that there is no NER machine learning achieved in this case. Hope this information helps someone!

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