Algorithm for Mining Maximal Balanced Bicliques Using Formal Concept Analysis

One of the most fundamental models for cohesive subgraph mining in network analysis is that which involves the use of cliques. In bipartite graph analysis, the detection of maximal balanced bicliques (MBB) is an important problem with numerous applications, including VLSI design, protein interaction...

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Bibliographic Details
Published in:IEEE access Vol. 13; pp. 35113 - 35123
Main Authors: Sadriddinov, Ilkhomjon, Peng, Sony, Siet, Sophort, Kim, Dae-Young, Park, Doo-Soon, Yi, Gangman
Format: Journal Article
Language:English
Published: IEEE 2025
Subjects:
Bipartite graph
Data mining
Detection algorithms
Formal concept analysis
Lattices
maximal balanced biclique
Social networking (online)
Time complexity
Web pages
ISSN:2169-3536, 2169-3536
Online Access:Get full text
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Summary:One of the most fundamental models for cohesive subgraph mining in network analysis is that which involves the use of cliques. In bipartite graph analysis, the detection of maximal balanced bicliques (MBB) is an important problem with numerous applications, including VLSI design, protein interactions, and social networks. However, MBB detection is difficult, complex, and time-consuming. In the current paper, to address these disadvantages, we propose a new algorithm for detecting MBB using formal concept analysis (FCA) on bipartite graphs. We applied an algorithm to compute formal concepts from the formal context, which is an alternative way of representing a bipartite graph. We proved that the MBB problem is equivalent to the semi-equiconcept enumeration problem in the formal context. Therefore, the semi-equiconcept mining algorithm was applied to the MBB enumeration problem. However, since the existing FCA algorithm cannot be directly applied to mine all MBBs, the FCA algorithm was modified in its entirety. Thorough asymptotic analysis was performed on the proposed algorithm. Experiments were also conducted on various real-world bipartite graphs to which the proposed algorithm was applied, and our results were found to be significantly better than those obtained by the preexisting algorithm.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2024.3419838