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Online News Clustering

This program performs an incremental clustering algorithm over news and social media articles. It can be used to quickly and efficiently detect bursting topics on internet.

Dependencies

The main code can be independently run on python 2 or python 3, but some few lines only run on python2. This is because it uses Dragnet library to extract content of html sites. To run it on python 3, be sure that Dragnet importations are disabled and also change Queue importation with queue. The programs uses the following libraries listed on requeriments.txt:

To install them type on terminal:

pip install -r requirements.txt

In order to use Spacy with english words, you have to download the english dicitionary typing:

python3 -m spacy download en

To use Spacy with in other languages, you have to only change the en keyword by the correspondent:

  • Dutch: nl

  • French: fr

  • German: de

  • Italian: it

  • Multi-language: xx

  • Portuguese: pt

  • Spanish: es

If you need take a look at Spacy documentation.

Quickstart

To start detecting trending news about some topic, complete the track_terms.dat file with terms to filter the articles and provide an opml file with the list of feeds to scrape. To start detecting trending tweets, complete the track_terms.dat file with terms to filter the publications on twitter (or leave it empty just to read everything). To filter tweets, you also need to previously create a twitter app and provide the keys completing private_default.py and renaming it as private.py. If you don't know how to create a twitter app, theere are some nice tutorials over there, like this one.

Make sure you has propertly installed all the dependencies described before. Also, make sure you have downloaded the Spacy language dictionary you are going to need.

Check that online variable is defined True on settings.py. Customize other parameters or just leave them with default values for now. You can check their use cases and their possible value in the User Manual.

To start clustering, type on terminal:

python2 main.py

Once the algorithm has been running for a while, you can plot current cluster results typing on another terminal:

python3 cluster_plotter.py

User's manual

The User's Manual explain how to use the available parameters and define study cases in settings.py.

Main features:

  • Execution modes: There are two main modes of execution: a) Backtesting mode: This mode performs an online clustering over items provided in a csv file. b) Online mode: This mode performs an online clustering over items that are read continuously from different internet sources. You can use the programm to look for news and trending topics on journals, reddit, twitter and other social media.

  • Sources: Choose between news and twitter. The news option enables the lecture of a file containing a list of feeds that you are interested.

  • Efficient text data representation: Items collected from sources are grouped into buckets. In each bucket we compute a vector representation of each item, wich consist in several steps: a) Several parameters extraction, like content, publication time on news, or content, publication time, user name, user followers and so many others on tweets. b) Vector representation of each item using the bag of words method. This step is implemented using the CountVectorizer class of sklearn library. c) Removing stop words from count vectors. d) Stemming step using spacy library. After obtaining the count representation of each item of the new bucket, (and so, having the count representation of all the elements in the universe, which consist of buckets of items and clusters of items), perform the lasts steps: e) Compute the tf-idf representation of each item in the buckets. f) Compute tf-idf representation of each cluster centroid. No library is used for the tf-idf calculation. A specific calculation method was developed for this problem, to efficiently manage the structures used and the fact that new terms continually appear.

  • Efficient text data clustering: Once a bucket is processed, each item is compared only with centroids of clusters, which are stored in a compressed sparse column matrix format, which allows us to compute the matrix vector products in an efficient way. If the minimum distance between the item and a cluster is lower than a predefined threshold, the item is assigned to that cluster (and so, the cluster centroid is updated). Otherwise, another cluster is created with the item. Although the measured distances are computed between the tf-idf representations of items and clusters, the raw count of terms of each cluster is also stored for the later re-calculation of their tf-idf representation.

Improvements:

Three main improvements are performed to increase the speedup of the algorithm and the accurancy of the clustering:

  • Term pruning: In tweets and social blogs users usually have spelling errors. Those errors are learned by the model as if they were new terms, but they only appear once or twice and never again. Due to this fact, the dimension of terms grows too much, generating unnecessarily large data structures. To deal with this problem, there are two main approaches: one try to identify and correct before the count representation (a priory) these spelling errors, and the other try to identify after the count representaiton (a posteriori) the similarity between these terms. This program makes use of a second approach called term similarity analysis to avoid losing excessive time in data processing. So, misspelled terms are stored as new terms. A pruning algorithm has been developed to remove unused terms (misspelled terms become unused over time because it's difficult that different bloggers have the same spelling errors). The pruning algorithm can be called with some frequency provided by input. The pruning step not only remove terms from the learned dictionary of words, it also restructures all necessary data in an efficient way in order to reduce dimensions. It could be claimed that the time gained in preprocessing is then lost between the a posteriori approach and the pruning step, but the developer has opted for the second approach because it also generates an improvement in the precision of the clustering.

  • Inactive clustering remove: The amount of generated clusters increase continuously with time, but some clusters contain isolated items and some others simply became inactive with time. In order to keep in memory only active clusters, we can set by input some parameters that regulate the life of them. Before removing, the algorithm checks whether a cluster has been important or not. Important clusters are stored in SQL format to further analyze them.

  • Term similarity analysis: In a paper [1] published last year, the autors have shown that term similarity analysis not only deals with the misspelling errors frequently found on blog documents, but also improves the accurancy of the clsutering. The method of term similarity analysis computes similarities between terms based on co-ocurrences between them in different blogs. These calculations are undertood as similarities between concepts. Based on that, a vector expansion algorithm is performed over cluster centroids and items from the bucket that is going to be clusterized.

Although these algorithms improve the precision of the clustering method, it must be taken into account that they also increase the calculation time. The frequency of its use must be regulated from the input, so that the total clustering calculation time never exceeds the time that each bucket needs to be filled. Otherwise, you will be clustering on increasingly older data.

References:

[1] Incremental clustering with vector expansion for online event detection in microblogs, Ozer Ozdikis, Pinar Karagoz and Halit Oğuztüzün, October 2017.

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