IEEE Access (Jan 2021)

Short Text Classification Using Contextual Analysis

  • Sami Al Sulaimani,
  • Andrew Starkey

DOI
https://doi.org/10.1109/ACCESS.2021.3125768
Journal volume & issue
Vol. 9
pp. 149619 – 149629

Abstract

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Micro blogging tools provide a real time service for the public to express opinions, to broadcast news and information and offer an opportunity to comment and respond to such output. Word usage in social media is continually evolving. Micro bloggers may use different sets of words to describe a specific event and they may use new words (i.e. neither exist in the training dataset nor in informal or formal dictionaries) or use words in new contexts. Dynamically capturing new words and their potential meaning from their context can help to reflect the words relationship in social media, which then can be useful for solving various problems, like the event classification task. Different approaches have been proposed in this regard, one of them is Contextual Analysis. This paper focuses on examining the potential of this approach for grouping short texts (tweets) talking about the same event into the same category. A new transparent method for text multi-class categorization is presented. It uses the Contextual Analysis approach to capture the most important words in the context of an event and to detect the usage of similar words in different contexts. In order to test the efficacy in these areas, this study evaluates the performance of the proposed method and other well known methods, such as Naïve Bayes, Support Vector Machines, K-Nearest Neighbors and Convolutional Neural Networks. On average, the experiments’ results show that the proposed multi-class classification method can effectively categorize tweets into various event groups, with a high f1-measure score f1>97.09% and f1>95.27%, in the imbalanced classes and high number of classes experiments, respectively. However, similar to the baseline methods, the performance is negatively influenced by the imbalanced dataset. The Convolutional Neural Networks method produces the best performance among the other algorithms with f1>97.74% in all experiments, which is 1.73% and 2.72% higher than the lowest performance of Naive Bayes and K-Nearest Neighbors, respectively, but does not meet the requirements of transparency of results.

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