An Improved Label Propagation Algorithm Based on Motif and Critical Node for Community Detection
Authors: 
Jiajia Yang, Yuyan ZhengAuthors Info & Claims
Pages 121 - 133
Abstract
Community detection can reveal the structural properties of real social networks. In community detection, label propagation is an effective typical method which has the advantage of nearly linear time complexity. However, it usually random selects nodes to update the direct neighbor label, which leads to the inaccurate community structure and instability. To solve these issues, we introduce network motif and critical node to assign weights to the edges of the network. Moreover, motif can reveal the basic building blocks of higher-order structures in complex networks. Based on two techniques above, this paper proposes an improved label propagation algorithm called MCN-LPA. MCN-LPA first mines motifs in original network. Then, MCN-LPA uses the mined motifs to find the critical nodes, which play a vital role in the effective information dissemination. Thirdly, a weighted undirected network is constructed based on motif and critical node. Finally, the correlation strength between neighbors on the network and the number of neighbor labels are employed for label propagation. The aim is to overcome the randomness of label selection to achieve the more stable community structure. Extensive experiments are conducted on four real-world complex networks. The results demonstrate that our proposed method outperforms the state-of-the-arts and has the better stability.
References
[1]
Rossetti, G., Cazabet, R.: Community discovery in dynamic networks: a survey. ACM Comput. Surv. 51(2) (2017)
[2]
Girvan, M., Newman, M.J.: Community structure in social and biological networks. Proc. Natl. Acad. Sci. USA 99(12) (2002)
[3]
Zhen PL, Ling H, Dong CW, et al. Community detection by motif-aware label propagation ACM Trans. Knowl. Discov. Data 2020 14 2 1-19
[4]
Newman, M.E.J., Girvan, M.: Finding and evaluating community structure in networks. Phys. Rev. E Stat. Nonlinear Soft Matter Phys. 69(2 Pt 2) (2004)
[5]
Blondel, V.D., Guillaume, J.L., Lambiotte, R., et al.: Fast unfolding of communities in large networks. J. Stat. Mech. Theory Experiment (2008)
[6]
Raghavan, U.N., Albert, R., Kumara, S.: Near linear time algorithm to detect community structures in large-scale networks. Phys. Rev. E (2007)
[7]
Liu, X., Murata, T.: Advanced modularity-specialized label propagation algorithm for detecting communities in networks. Physica A: Stat. Mech. Appl. (2009)
[8]
Yan, X., Fanrong, M., Yong, Z., et al.: A node influence based label propagation algorithm for community detection in networks. Sci. World J. (2014)
[9]
Gleich, D.F, et al.: Higher-order organization of complex networks. Science (2016)
[10]
Li, P.,Huang, L., Wang, C., et al.: EdMot: an edge enhancement approach for motif-aware community detection. CoRR (2019)
[11]
Shen-Orr SS, Milo R, Mangan S, et al. Network motifs in the transcriptional regulation network of Escherichia coli Nat. Genet. 2002 31 1 64-68
[12]
Tsourakakis, E.C., Pachocki, W.J., Mitzenmacher, M.: Scalable motif-aware graph clustering. CoRR abs/1606.06235 (2016)
[13]
Ren, X.-L., Zhang, Q.M., et al.: Vital nodes identification in complex networks. Phys. Rep. Rev. Sect. Phys. Lett. (Sect. C) 1–63 (2016)
[14]
Jian M and Jung C Semi-supervised bi-dictionary learning for image classification with smooth representation-based label propagation IEEE Trans. Multimedia 2016 18 3 458-473
[15]
Cordasco, G., Gargano, L.: Community detection via semi-synchronous label propagation algorithms. IEEE (2011)
[16]
Liu, K., Huang, J., Sun, H., et al.: Label propagation based evolutionary clustering for detecting overlapping and non-overlapping communities in dynamic networks. Knowl.-Based Syst. 89(NOV.), 487–496 (2015)
[17]
Xu, H., Ran, Y., Xing, J., et al.: An influence-based label propagation algorithm for overlapping community detection. Mathematics 11(9) (2023)
[18]
Milo R et al. Network motifs: simple building blocks of complex networks Science 2011 298 824-827
[19]
Prat-Pérez, A., Dominguez-Sal, D., et al.: put three and three together: triangle-driven community detection. ACM Trans. Knowl. Discov. Data (TKDD) 10(3) (2016)
[20]
Ling, H., Dong, C.W., Hongyang, C.: HM-modularity: a harmonic motif modularity approach for multi-layer network community detection. IEEE Trans. Knowl. Data Eng. 33(6) (2019)
[21]
Yu, H., Cao, X., Liu, Z., et al.: Identifying key nodes based on improved structural holes in complex networks. Physica A: Stat. Mech. Appl. 318–327 (2017)
[22]
Hui, Y., Zun, L., Yongjun, L.: Using local improved structural holes method to identify key nodes in complex networks. In: 2013 Fifth International Conference on Measuring Technology and Mechatronics Automation (ICMTMA). IEEE (2013)
[23]
Yubin Y, Guoyin W, Jun H, et al. An improved label propagation algorithm based on community core node and label importance for community detection in sparse network Appl. Intell. 2023 53 14 17935-17951
[24]
Chunying L, Yong T, et al. Motif-based embedding label propagation algorithm for community detection Int. J. Intell. Syst. 2021 37 3 1880-1902
[25]
Aaron, C., Newman, M.E.J., Cristopher, M.: Finding community structure in very large networks. Phys. Rev. E, Stat. Nonlinear Soft Matter Phys. 70(6 Pt 2), 066111 (2004)
[26]
Traag VA and Šubelj L Large network community detection by fast label propagation Sci. Rep. 2023 13 1 2701
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Published In
Aug 2024
497 pages
© The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.
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Springer-Verlag
Berlin, Heidelberg
Publication History
Published: 05 August 2024
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