Multilayer networks as embodied consciousness interactions: A formal model approach

Camilo Miguel Signorelli; Joaquin Diaz Boils

doi:10.1007/s11097-024-09967-w

Multilayer networks as embodied consciousness interactions: A formal model approach

Camilo Miguel Signorelli, Joaquin Diaz Boils^*

^*Corresponding author af dette arbejde

Institut for Kommunikation

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

1 Citationer (Scopus)

Abstract

An algebraic interpretation of multigraph networks is introduced in relation to conscious experience, brain and body. These multigraphs have the ability to merge by an associative binary operator ⊙, accounting for biological composition. We also study a mathematical formulation of splitting layers, resulting in a formal analysis of the transition from conscious to non-conscious activity. From this construction, we recover core structures for conscious experience, dynamical content and causal constraints that conscious interactions may impose. An important result is the prediction of structural topological changes after conscious interactions. These results may inspire further use of formal mathematics to describe and predict new features of conscious experience while aligning well with formal tries to mathematize phenomenology, phenomenological tradition and applications to artificial consciousness.

Originalsprog	Engelsk
Tidsskrift	Phenomenology and the Cognitive Sciences
Vol/bind	23
Sider (fra-til)	1119-1150
Antal sider	32
ISSN	1568-7759
DOI	https://doi.org/10.1007/s11097-024-09967-w
Status	Udgivet - 2024

Bibliografisk note

Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature B.V. 2024.

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Citationsformater

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title = "Multilayer networks as embodied consciousness interactions: A formal model approach",

abstract = "An algebraic interpretation of multigraph networks is introduced in relation to conscious experience, brain and body. These multigraphs have the ability to merge by an associative binary operator ⊙, accounting for biological composition. We also study a mathematical formulation of splitting layers, resulting in a formal analysis of the transition from conscious to non-conscious activity. From this construction, we recover core structures for conscious experience, dynamical content and causal constraints that conscious interactions may impose. An important result is the prediction of structural topological changes after conscious interactions. These results may inspire further use of formal mathematics to describe and predict new features of conscious experience while aligning well with formal tries to mathematize phenomenology, phenomenological tradition and applications to artificial consciousness.",

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PY - 2024

Y1 - 2024

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AB - An algebraic interpretation of multigraph networks is introduced in relation to conscious experience, brain and body. These multigraphs have the ability to merge by an associative binary operator ⊙, accounting for biological composition. We also study a mathematical formulation of splitting layers, resulting in a formal analysis of the transition from conscious to non-conscious activity. From this construction, we recover core structures for conscious experience, dynamical content and causal constraints that conscious interactions may impose. An important result is the prediction of structural topological changes after conscious interactions. These results may inspire further use of formal mathematics to describe and predict new features of conscious experience while aligning well with formal tries to mathematize phenomenology, phenomenological tradition and applications to artificial consciousness.

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KW - Category theory

KW - Conscious experience

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KW - Phenomenology

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