November 24, 2024
Mohammad Bidoki

Mohammad Bidoki

Academic Rank: Assistant professor
Address:
Degree: Ph.D in Computer Engineering - Software Systems
Phone: 07734567889
Faculty: Jam Faculty of Engineering

Research

Title A semantic approach to extractive multi-document summarization: Applying sentence expansion for tuning of conceptual densities
Type Article
Keywords
Multi-document Extractive Summarization, Sentence Expansion, Conceptual Density Tuning, Word Embedding, Text Clustering, Language-independent Approach
Journal INFORMATION PROCESSING & MANAGEMENT
DOI https://doi.org/10.1016/j.ipm.2020.102341
Researchers Mohammad Bidoki (First researcher) , Mohammad Reza Moosavi (Second researcher) , Seyed Mostafa Fakhrahmad (Third researcher)

Abstract

Today, due to a vast amount of textual data, automated extractive text summarization is one of the most common and practical techniques for organizing information. Extractive summarization selects the most appropriate sentences from the text and provide a representative summary. The sentences, as individual textual units, usually are too short for major text processing techniques to provide appropriate performance. Hence, it seems vital to bridge the gap between short text units and conventional text processing methods. In this study, we propose a semantic method for implementing an extractive multi-document summarizer system by using a combination of statistical, machine learning based, and graph-based methods. It is a language-independent and unsupervised system. The proposed framework learns the semantic representation of words from a set of given documents via word2vec method. It expands each sentence through an innovative method with the most informative and the least redundant words related to the main topic of sentence. Sentence expansion implicitly performs word sense disambiguation and tunes the conceptual densities towards the central topic of each sentence. Then, it estimates the importance of sentences by using the graph representation of the documents. To identify the most important topics of the documents, we propose an inventive clustering approach. It autonomously determines the number of clusters and their initial centroids, and clusters sentences accordingly. The system selects the best sentences from appropriate clusters for the final summary with respect to information salience, minimum redundancy, and adequate coverage. A set of extensive experiments on DUC2002 and DUC2006 datasets was conducted for investigating the proposed scheme. Experimental results showed that the proposed sentence expansion algorithm and clustering approach could considerably enhance the performance of the summarization system. Also, comparative experiments demonstrated t