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Artículo Publicado

Small-worldness favours network inference in synthetic neural networks

García, Rodrigo - Martí, Arturo - Cabeza, Cecilia - Rubido, Nicolás

Resumen:

A main goal in the analysis of a complex system is to infer its underlying network structure from timeseries observations of its behaviour. The inference process is often done by using bi-variate similarity measures, such as the cross-correlation (CC) or mutual information (MI), however, the main factors favouring or hindering its success are still puzzling. Here, we use synthetic neuron models in order to reveal the main topological properties that frustrate or facilitate inferring the underlying network from CC measurements. Specifcally, we use pulse-coupled Izhikevich neurons connected as in the Caenorhabditis elegans neural networks as well as in networks with similar randomness and smallworldness. We analyse the efectiveness and robustness of the inference process under diferent observations and collective dynamics, contrasting the results obtained from using membrane potentials and inter-spike interval time-series. We fnd that overall, small-worldness favours network inference and degree heterogeneity hinders it. In particular, success rates in C. elegans networks – that combine small-world properties with degree heterogeneity – are closer to success rates in Erdös-Rényi network models rather than those in Watts-Strogatz network models. These results are relevant to understand better the relationship between topological properties and function in diferent neural networks

Detalles Bibliográficos
Fecha de publicación:	2020
Temas:	NEURAL NETWORKS COMPLEX SYSTEMS
Idioma	Inglés
Institución:	Universidad de la República
Repositorio:	COLIBRI
Enlace(s):	https://hdl.handle.net/20.500.12008/30874
Nivel de acceso:	Acceso abierto
Licencia:	Licencia Creative Commons Atribución (CC - By 4.0)

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author	García, Rodrigo
author2	Martí, Arturo Cabeza, Cecilia Rubido, Nicolás
author2_role	author author author
author_facet	García, Rodrigo Martí, Arturo Cabeza, Cecilia Rubido, Nicolás
author_role	author
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collection	COLIBRI
dc.contributor.filiacion.none.fl_str_mv	García Rodrigo, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física. Martí Arturo, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física. Cabeza Cecilia, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física. Rubido Nicolás, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física.
dc.creator.none.fl_str_mv	García, Rodrigo Martí, Arturo Cabeza, Cecilia Rubido, Nicolás
dc.date.accessioned.none.fl_str_mv	2022-02-18T13:26:44Z
dc.date.available.none.fl_str_mv	2022-02-18T13:26:44Z
dc.date.issued.none.fl_str_mv	2020
dc.description.abstract.none.fl_txt_mv	A main goal in the analysis of a complex system is to infer its underlying network structure from timeseries observations of its behaviour. The inference process is often done by using bi-variate similarity measures, such as the cross-correlation (CC) or mutual information (MI), however, the main factors favouring or hindering its success are still puzzling. Here, we use synthetic neuron models in order to reveal the main topological properties that frustrate or facilitate inferring the underlying network from CC measurements. Specifcally, we use pulse-coupled Izhikevich neurons connected as in the Caenorhabditis elegans neural networks as well as in networks with similar randomness and smallworldness. We analyse the efectiveness and robustness of the inference process under diferent observations and collective dynamics, contrasting the results obtained from using membrane potentials and inter-spike interval time-series. We fnd that overall, small-worldness favours network inference and degree heterogeneity hinders it. In particular, success rates in C. elegans networks – that combine small-world properties with degree heterogeneity – are closer to success rates in Erdös-Rényi network models rather than those in Watts-Strogatz network models. These results are relevant to understand better the relationship between topological properties and function in diferent neural networks
dc.format.extent.es.fl_str_mv	10 h.
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dc.identifier.citation.es.fl_str_mv	García, R, Martí, A, Cabeza, C, [y otro] "Small-worldness favours network inference in synthetic neural networks". Scientific Reports. [en línea] 2020, 10: 2296. 10 h. DOI: 10.1038/s41598-20-59198-7
dc.identifier.doi.none.fl_str_mv	10.1038/s41598-020-59198-7
dc.identifier.issn.none.fl_str_mv	2045-2322
dc.identifier.uri.none.fl_str_mv	https://hdl.handle.net/20.500.12008/30874
dc.language.iso.none.fl_str_mv	en eng
dc.publisher.en.fl_str_mv	Nature Research
dc.relation.ispartof.es.fl_str_mv	Scientific Reports, 2020, 10: 2296
dc.rights.license.none.fl_str_mv	Licencia Creative Commons Atribución (CC - By 4.0)
dc.rights.none.fl_str_mv	info:eu-repo/semantics/openAccess
dc.source.none.fl_str_mv	reponame:COLIBRI instname:Universidad de la República instacron:Universidad de la República
dc.subject.other.en.fl_str_mv	NEURAL NETWORKS COMPLEX SYSTEMS
dc.title.none.fl_str_mv	Small-worldness favours network inference in synthetic neural networks
dc.type.es.fl_str_mv	Artículo
dc.type.none.fl_str_mv	info:eu-repo/semantics/article
dc.type.version.none.fl_str_mv	info:eu-repo/semantics/publishedVersion
description	A main goal in the analysis of a complex system is to infer its underlying network structure from timeseries observations of its behaviour. The inference process is often done by using bi-variate similarity measures, such as the cross-correlation (CC) or mutual information (MI), however, the main factors favouring or hindering its success are still puzzling. Here, we use synthetic neuron models in order to reveal the main topological properties that frustrate or facilitate inferring the underlying network from CC measurements. Specifcally, we use pulse-coupled Izhikevich neurons connected as in the Caenorhabditis elegans neural networks as well as in networks with similar randomness and smallworldness. We analyse the efectiveness and robustness of the inference process under diferent observations and collective dynamics, contrasting the results obtained from using membrane potentials and inter-spike interval time-series. We fnd that overall, small-worldness favours network inference and degree heterogeneity hinders it. In particular, success rates in C. elegans networks – that combine small-world properties with degree heterogeneity – are closer to success rates in Erdös-Rényi network models rather than those in Watts-Strogatz network models. These results are relevant to understand better the relationship between topological properties and function in diferent neural networks
eu_rights_str_mv	openAccess
format	article
id	COLIBRI_441b03ef9c08be876bffc6a2a39304e2
identifier_str_mv	García, R, Martí, A, Cabeza, C, [y otro] "Small-worldness favours network inference in synthetic neural networks". Scientific Reports. [en línea] 2020, 10: 2296. 10 h. DOI: 10.1038/s41598-20-59198-7 2045-2322 10.1038/s41598-020-59198-7
instacron_str	Universidad de la República
institution	Universidad de la República
instname_str	Universidad de la República
language	eng
language_invalid_str_mv	en
network_acronym_str	COLIBRI
network_name_str	COLIBRI
oai_identifier_str	oai:colibri.udelar.edu.uy:20.500.12008/30874
publishDate	2020
reponame_str	COLIBRI
repository.mail.fl_str_mv	mabel.seroubian@seciu.edu.uy
repository.name.fl_str_mv	COLIBRI - Universidad de la República
repository_id_str	4771
rights_invalid_str_mv	Licencia Creative Commons Atribución (CC - By 4.0)
spelling	García Rodrigo, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física.Martí Arturo, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física.Cabeza Cecilia, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física.Rubido Nicolás, Universidad de la República (Uruguay). Facultad de Ciencias. Instituto de Física.2022-02-18T13:26:44Z2022-02-18T13:26:44Z2020García, R, Martí, A, Cabeza, C, [y otro] "Small-worldness favours network inference in synthetic neural networks". Scientific Reports. [en línea] 2020, 10: 2296. 10 h. DOI: 10.1038/s41598-20-59198-72045-2322https://hdl.handle.net/20.500.12008/3087410.1038/s41598-020-59198-7A main goal in the analysis of a complex system is to infer its underlying network structure from timeseries observations of its behaviour. The inference process is often done by using bi-variate similarity measures, such as the cross-correlation (CC) or mutual information (MI), however, the main factors favouring or hindering its success are still puzzling. Here, we use synthetic neuron models in order to reveal the main topological properties that frustrate or facilitate inferring the underlying network from CC measurements. Specifcally, we use pulse-coupled Izhikevich neurons connected as in the Caenorhabditis elegans neural networks as well as in networks with similar randomness and smallworldness. We analyse the efectiveness and robustness of the inference process under diferent observations and collective dynamics, contrasting the results obtained from using membrane potentials and inter-spike interval time-series. We fnd that overall, small-worldness favours network inference and degree heterogeneity hinders it. In particular, success rates in C. elegans networks – that combine small-world properties with degree heterogeneity – are closer to success rates in Erdös-Rényi network models rather than those in Watts-Strogatz network models. These results are relevant to understand better the relationship between topological properties and function in diferent neural networksSubmitted by Verdun Juan Pablo (jverdun@fcien.edu.uy) on 2022-02-09T18:59:38Z No. of bitstreams: 2 license_rdf: 19875 bytes, checksum: 9fdbed07f52437945402c4e70fa4773e (MD5) 10.1038s41388-020-01457-y.pdf: 3010871 bytes, checksum: ec9e080fdd4677cf3339d8626b62b1d8 (MD5)Rejected by Faget Cecilia (lfaget@fcien.edu.uy), reason: Pablo: tiene el pdf incorrecto. A mi no me permite cambiarlo. Capaz que vos tenes permiso. on 2022-02-17T12:08:56Z (GMT)Submitted by Verdun Juan Pablo (jverdun@fcien.edu.uy) on 2022-02-17T16:00:35Z No. of bitstreams: 2 license_rdf: 19875 bytes, checksum: 9fdbed07f52437945402c4e70fa4773e (MD5) 10.1038s41598-020-59198-7.pdf: 1612933 bytes, checksum: f4fc4314c7fd52b7054fd7321b206f4e (MD5)Approved for entry into archive by Faget Cecilia (lfaget@fcien.edu.uy) on 2022-02-18T10:44:26Z (GMT) No. of bitstreams: 2 license_rdf: 19875 bytes, checksum: 9fdbed07f52437945402c4e70fa4773e (MD5) 10.1038s41598-020-59198-7.pdf: 1612933 bytes, checksum: f4fc4314c7fd52b7054fd7321b206f4e (MD5)Made available in DSpace by Luna Fabiana (fabiana.luna@seciu.edu.uy) on 2022-02-18T13:26:44Z (GMT). No. of bitstreams: 2 license_rdf: 19875 bytes, checksum: 9fdbed07f52437945402c4e70fa4773e (MD5) 10.1038s41598-020-59198-7.pdf: 1612933 bytes, checksum: f4fc4314c7fd52b7054fd7321b206f4e (MD5) Previous issue date: 202010 h.application/pdfenengNature ResearchScientific Reports, 2020, 10: 2296Las obras depositadas en el Repositorio se rigen por la Ordenanza de los Derechos de la Propiedad Intelectual de la Universidad de la República.(Res. Nº 91 de C.D.C. de 8/III/1994 – D.O. 7/IV/1994) y por la Ordenanza del Repositorio Abierto de la Universidad de la República (Res. 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- Universidad de la Repúblicafalse
spellingShingle	Small-worldness favours network inference in synthetic neural networks García, Rodrigo NEURAL NETWORKS COMPLEX SYSTEMS
status_str	publishedVersion
title	Small-worldness favours network inference in synthetic neural networks
title_full	Small-worldness favours network inference in synthetic neural networks
title_fullStr	Small-worldness favours network inference in synthetic neural networks
title_full_unstemmed	Small-worldness favours network inference in synthetic neural networks
title_short	Small-worldness favours network inference in synthetic neural networks
title_sort	Small-worldness favours network inference in synthetic neural networks
topic	NEURAL NETWORKS COMPLEX SYSTEMS
url	https://hdl.handle.net/20.500.12008/30874

Small-worldness favours network inference in synthetic neural networks

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