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Named Entity Recognition Tool for
Europeana Newspapers Build Status

This tool takes container documents (MPEG21-DIDL, METS), parses all references to ALTO files and tries to find named entities in the text (with most models: Location, Person, Organisation, Misc). The aim is to keep the physical location (aka coordinates) on the page available throughout the whole process to be able to highlight the results in a viewer.

Read more about it on the KBNLresearch blog.

Stanford-NER is used for tagging. Most of the development was done at the research department of the National Library of the Netherlands over the course of the Europeana Newspapers project (2012-2015). Maintenance of this project has since been taken over by the Berlin State Library.

If you are looking for a project which interacts more closely with the core of Stanford-NER, take a peek at the INL branch, created by the Institute for Dutch Lexicology.

Input formats

The following input formats are implemented:

  • ALTO
  • HTML
  • METS
  • MPEG21-DIDL
  • Text

Output formats

The following output formats are implemented:

Building

Building from source:

Install Maven, Java (v1.7 and up). Clone the source from GitHub, and in the toplevel directory run:

mvn package

This command will generate a JAR and a WAR of the NER located in the target/ directory. To deploy the WAR, just copy it into the Tomcat webapp directory, or use Tomcat manager to do it for you.

Usage command-line-interface

Invoking help:

java -jar NerAnnotator.jar --help

usage: java -jar NerAnnotator.jar [OPTIONS] [INPUTFILES..]
-c,--container <FORMAT>             Input type: mets (Default), didl,
                                    alto, text, html
-d,--output-directory <DIRECTORY>   output DIRECTORY for result files.
                                    Default ./output
-f,--export <FORMAT>                Output type: log (Default), csv,
                                    html, db, alto, alto2_1, alto3, bio.
                                    Multiple formats:" -f html -f csv"
-l,--language <ISO-CODE>            use two-letter ISO-CODE for language
                                    selection: en, de, nl ....
-m,--models <language=filename>     models for languages. Ex. -m
                                    de=/path/to/file/model_de.gz -m
                                    nl=/path/to/file/model_nl.gz
-n,--nthreads <THREADS>             maximum number of threads to be used
                                    for processing. Default 8

If there are no input files specified, a list of file names is read from stdin.

Example invocation for classification of german_alto.xml:

java -Xmx800m -jar NerAnnotator.jar -c mets -f alto -l de -m de=./test-files/german.ser.gz -n 2 ./test-files/german_alto.xml

The given example takes the language model called german.ser.gz and applies it to german_alto.xml using 2 threads, with container type METS and ALTO output encoding.

Usage web-interface

Web-interface standalone:

mvn jetty:run

This will try to bind to port 8080, using Jetty.

Once deployed to Tomcat, the following applies. The default configuration (as well as test-classifiers) resides in src/main/resources/config.ini, this file references the available classifiers.

See the provided sample for some default settings. The landing page of the application will show the available options once invoked with a browser. The config.ini and the classifiers will end up in WEB-INF/classes/, after deployment.

Working with classifiers and binary model generation

To be able to compare your results with a baseline we provide some test files located in the test-files directory.

To run a back-to-front test try:

cd test-files;./test_europeana_ner.sh

The output should look something like:

Generating new classification model. (de)
-rw-rw-r-- 1 aloha aloha 1.4M Sep 11 15:55 ./eunews_german.crf.gz

real	0m3.984s
user	0m5.452s
sys	0m0.235s
Applying generated model (de).

Results:
    Locations: 4
    Organizations: 0
    Persons: 1071

real	0m13.512s
user	0m17.771s
sys	0m0.336s

Generating new classification model. (nl)
-rw-rw-r-- 1 aloha aloha 1.7M Sep 11 15:56 ./eunews_dutch.crf.gz

real	0m8.816s
user	0m10.437s
sys	0m0.371s
Applying generated model (nl).

Results:
    Locations: 1
    Organizations: 8
    Persons: 0

real	0m5.048s
user	0m9.278s
sys	0m0.233s

To generate a binary classification model, use the following command:

cd test-files; java -Xmx5G -cp ../target/NerAnnotator-0.0.2-SNAPSHOT-jar-with-dependencies.jar edu.stanford.nlp.ie.crf.CRFClassifier -prop austen_dutch.prop

This should result in a file called eunews_dutch.crf.gz, with a file-size of +/- 1MB.

To verify the NER software, use the created classifier to process the provided example file.

cd test-files; java -jar ../target/NerAnnotator-0.0.2-SNAPSHOT-jar-with-dependencies.jar -c alto -d out -f alto -l nl -m nl=./eunews_dutch.crf.gz -n 8 ./dutch_alto.xml

This should result in a directory called out containing ALTO files with inline annotation.

General remarks on binary classification model generation

The process of generating a binary classification model is a delicate one. The input .bio file needs be as clean as possible to prevent the garbage in-out rule from happening. Thus, use noise filters while creating .bio files.

Gazette's greatly improve the quality of your classification process, but a big model in memory may slow down processing speed. Overall there is a strong correlation in model size and performance.

The Stanford NER package offers a lot of settings that can influence the binary model generation process. These settings can be configured using austen.prop. For more information on the Stanford settings, see Stanford NER FAQ.

Binary classification models generated with this tool are fully compatible with the upstream version of the Stanford NER.