A percolation-based thresholding method with applications in functional connectivity analysis

Farnaz Zamani Esfahlani; Hiroki Sayama

doi:10.1007/978-3-319-73198-8_19

A percolation-based thresholding method with applications in functional connectivity analysis

Farnaz Zamani Esfahlani^*, Hiroki Sayama

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

Despite the recent advances in developing more effective thresholding methods to convert weighted networks to unweighted counterparts, there are still several limitations that need to be addressed. One such limitation is the inability of the most existing thresholding methods to take into account the topological properties of the original weighted networks during the binarization process, which could ultimately result in unweighted networks that have drastically different topological properties than the original weighted networks. In this study, we propose a new thresholding method based on the percolation theory to address this limitation. The performance of the proposed method was validated and compared to the existing thresholding methods using simulated and real-world functional connectivity networks in the brain. Comparison of macroscopic and microscopic properties of the resulted unweighted networks to the original weighted networks suggests that the proposed thresholding method can successfully maintain the topological properties of the original weighted networks.

Original language	English
Title of host publication	Springer Proceedings in Complexity
Editors	Sean Cornelius, Kate Coronges, Bruno Goncalves, Roberta Sinatra, Alessandro Vespignani
Publisher	Springer Science and Business Media B.V.
Pages	221-231
Number of pages	11
ISBN (Print)	9783319731971
DOIs	https://doi.org/10.1007/978-3-319-73198-8_19
Publication status	Published - 2018
Externally published	Yes
Event	9th International Conference on Complex Networks, CompleNet 2018 - Boston, United States Duration: 2018 Mar 5 → 2018 Mar 8

Publication series

Name	Springer Proceedings in Complexity
Volume	0
ISSN (Print)	2213-8684
ISSN (Electronic)	2213-8692

Other

Other	9th International Conference on Complex Networks, CompleNet 2018
Country/Territory	United States
City	Boston
Period	18/3/5 → 18/3/8

ASJC Scopus subject areas

Applied Mathematics
Modelling and Simulation
Computer Science Applications

Access to Document

10.1007/978-3-319-73198-8_19

Cite this

Esfahlani, F. Z., & Sayama, H. (2018). A percolation-based thresholding method with applications in functional connectivity analysis. In S. Cornelius, K. Coronges, B. Goncalves, R. Sinatra, & A. Vespignani (Eds.), Springer Proceedings in Complexity (pp. 221-231). (Springer Proceedings in Complexity; Vol. 0). Springer Science and Business Media B.V.. https://doi.org/10.1007/978-3-319-73198-8_19

A percolation-based thresholding method with applications in functional connectivity analysis. / Esfahlani, Farnaz Zamani; Sayama, Hiroki.
Springer Proceedings in Complexity. ed. / Sean Cornelius; Kate Coronges; Bruno Goncalves; Roberta Sinatra; Alessandro Vespignani. Springer Science and Business Media B.V., 2018. p. 221-231 (Springer Proceedings in Complexity; Vol. 0).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Esfahlani, FZ & Sayama, H 2018, A percolation-based thresholding method with applications in functional connectivity analysis. in S Cornelius, K Coronges, B Goncalves, R Sinatra & A Vespignani (eds), Springer Proceedings in Complexity. Springer Proceedings in Complexity, vol. 0, Springer Science and Business Media B.V., pp. 221-231, 9th International Conference on Complex Networks, CompleNet 2018, Boston, United States, 18/3/5. https://doi.org/10.1007/978-3-319-73198-8_19

Esfahlani, Farnaz Zamani ; Sayama, Hiroki. / A percolation-based thresholding method with applications in functional connectivity analysis. Springer Proceedings in Complexity. editor / Sean Cornelius ; Kate Coronges ; Bruno Goncalves ; Roberta Sinatra ; Alessandro Vespignani. Springer Science and Business Media B.V., 2018. pp. 221-231 (Springer Proceedings in Complexity).

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abstract = "Despite the recent advances in developing more effective thresholding methods to convert weighted networks to unweighted counterparts, there are still several limitations that need to be addressed. One such limitation is the inability of the most existing thresholding methods to take into account the topological properties of the original weighted networks during the binarization process, which could ultimately result in unweighted networks that have drastically different topological properties than the original weighted networks. In this study, we propose a new thresholding method based on the percolation theory to address this limitation. The performance of the proposed method was validated and compared to the existing thresholding methods using simulated and real-world functional connectivity networks in the brain. Comparison of macroscopic and microscopic properties of the resulted unweighted networks to the original weighted networks suggests that the proposed thresholding method can successfully maintain the topological properties of the original weighted networks.",

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AB - Despite the recent advances in developing more effective thresholding methods to convert weighted networks to unweighted counterparts, there are still several limitations that need to be addressed. One such limitation is the inability of the most existing thresholding methods to take into account the topological properties of the original weighted networks during the binarization process, which could ultimately result in unweighted networks that have drastically different topological properties than the original weighted networks. In this study, we propose a new thresholding method based on the percolation theory to address this limitation. The performance of the proposed method was validated and compared to the existing thresholding methods using simulated and real-world functional connectivity networks in the brain. Comparison of macroscopic and microscopic properties of the resulted unweighted networks to the original weighted networks suggests that the proposed thresholding method can successfully maintain the topological properties of the original weighted networks.

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A percolation-based thresholding method with applications in functional connectivity analysis

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