Text Classification via Network Topology: A Case Study on the Holy Quran (2019)

Abstract

Due to the growth in the number of texts and documents available online, machine learning based text classification systems are getting more popular recently. Feature extraction, converting unstructured text into a structured feature space, is one of the essential tasks for text classification. In this paper, we propose a novel feature extraction approach for text classification using the network representation of text, network topology, and machine learning techniques. We present experimental results on classifying the Holy Quran chapters based on the place each chapter was revealed to illustrate the effectiveness of the approach.

A Novel Method of Extracting Topological Features From Word Embeddings (2020)

Shafie Gholizadeh, Armin Seyeditabari, Wlodek Zadrozny

Abstract

In recent years, topological data analysis has been utilized for a wide range of problems to deal with high dimensional noisy data. While text representations are often high dimensional and noisy, there are only a few work on the application of topological data analysis in natural language processing. In this paper, we introduce a novel algorithm to extract topological features from word embedding representation of text that can be used for text classification. Working on word embeddings, topological data analysis can interpret the embedding high-dimensional space and discover the relations among different embedding dimensions. We will use persistent homology, the most commonly tool from topological data analysis, for our experiment. Examining our topological algorithm on long textual documents, we will show our defined topological features may outperform conventional text mining features.

🍩 Database of Original & Non-Theoretical Uses of Topology

Text Classification via Network Topology: A Case Study on the Holy Quran (2019)

A Novel Method of Extracting Topological Features From Word Embeddings (2020)