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Community Detection Based on Density Peak Clustering Model and Multiple Attribute Decision-Making Strategy TOPSIS

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  • Jianjun Cheng
  • Xu Wang
  • Wenshuang Gong
  • Jun Li
  • Nuo Chen
  • Xiaoyun Chen
  • Giacomo Fiumara

Abstract

Community detection is one of the key research directions in complex network studies. We propose a community detection algorithm based on a density peak clustering model and multiple attribute decision-making strategy, TOPSIS (Technique for Order Preference by Similarity to an Ideal Solution). First, the two-dimensional dataset, which is transformed from the network by taking the density and distance as the attributes of nodes, is clustered by using the DBSCAN algorithm, and outliers are determined and taken as the key nodes. Then, the initial community frameworks are formed and expanded by adding the most similar node of the community as its new member. In this process, we use TOPSIS to cohesively integrate four kinds of similarities to calculate an index, and use it as a criterion to select the most similar node. Then, we allocate the nonkey nodes that are not covered in the expanded communities. Finally, some communities are merged to obtain a stable partition in two ways. This paper designs some experiments for the algorithm on some real networks and some synthetic networks, and the proposed method is compared with some popular algorithms. The experimental results testify for the effectiveness and show the accuracy of our algorithm.

Suggested Citation

  • Jianjun Cheng & Xu Wang & Wenshuang Gong & Jun Li & Nuo Chen & Xiaoyun Chen & Giacomo Fiumara, 2021. "Community Detection Based on Density Peak Clustering Model and Multiple Attribute Decision-Making Strategy TOPSIS," Complexity, Hindawi, vol. 2021, pages 1-18, December.
    • Handle: RePEc:hin:complx:1772407
    DOI: 10.1155/2021/1772407
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