Clustering Algorithm for Community Detection in Complex Network: A Comprehensive Review-Reference-Cited by-同舟云学术

Clustering Algorithm for Community Detection in Complex Network: A Comprehensive Review

Published:2020-10-18 Issue:4 Volume:13 Page:542-549
ISSN:2666-2558
Container-title:Recent Advances in Computer Science and Communications
language:en
Short-container-title:RACSC

Author:

Agrawal Smita¹^ORCID,Patel Atul²^ORCID

Affiliation:

1. CSE Department, Institute of Technology, Nirma University, Ahmedabad, India

2. Dean of CMPICA, CHARUSAT University, Changa, India

Abstract

Many real-world social networks exist in the form of a complex network, which includes very large scale networks with structured or unstructured data and a set of graphs. This complex network is available in the form of brain graph, protein structure, food web, transportation system, World Wide Web, and these networks are sparsely connected, and most of the subgraphs are densely connected. Due to the scaling of large scale graphs, efficient way for graph generation, complexity, the dynamic nature of graphs, and community detection are challenging tasks. From large scale graph to find the densely connected subgraph from the complex network, various community detection algorithms using clustering techniques are discussed here. In this paper, we discussed the taxonomy of various community detection algorithms like Structural Clustering Algorithm for Networks (SCAN), Structural-Attribute based Cluster (SA-cluster), Community Detection based on Hierarchical Clustering (CDHC), etc. In this comprehensive review, we provide a classification of community detection algorithm based on their approach, dataset used for the existing algorithm for experimental study and measure to evaluate them. In the end, insights into the future scope and research opportunities for community detection are discussed.

Publisher

Bentham Science Publishers Ltd.

Subject

General Computer Science

Reference62 articles.

1. M. Dehmer ; F. Emmert-Streib ; S. Pickl ; and A. Holzinger ; Big Data of Complex Networks Chapman 2016

2. Y. Wang ; L.A. Kung ; and T.A. Byrd ; "Big data analytics: Understanding its capabilities and potential benefits for healthcare organizations". Technol Forecast Soc Change vol. 126, pp. 3-13, 2018

3. J.O. Garcia ; A. Ashourvan ; S.F. Muldoon ; J.M. Vettel ; and D.S. Bassett ; "Applications of community detection techniques to brain graphs: Algorithmic considerations and implications for neural function" Proc IEEE Inst Electr Electron Eng 2018,vol. 106 no. 5, pp.,846-867

4. J. Han ; M. Kamber ; and J. Pei ; "Chapter 9: Graph Mining, Social Network Analysis, and Multirelational Data Mining" Data Min concepts Tech, pp 535-589, 2006

5. E. Society ; and E. Monographs ; The Seasonal Dynamics of The Chesapeake Bay Ecosystem Author ( s ): Daniel Baird and Robert E . Ulanowicz Published by : Wiley on behalf of the Ecological Society of America Stable URL., vol. 59, 2019no. 4, pp. 329-364

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