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Kraikivski, Pavel (2024) A Mechanistic Model of Perceptual Binding Predicts That Binding Mechanism Is Robust against Noise. Entropy, 26 (2). p. 133. ISSN 1099-4300

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Abstract

The concept of the brain’s own time and space is central to many models and theories that aim to explain how the brain generates consciousness. For example, the temporo-spatial theory of consciousness postulates that the brain implements its own inner time and space for conscious processing of the outside world. Furthermore, our perception and cognition of time and space can be different from actual time and space. This study presents a mechanistic model of mutually connected processes that encode phenomenal representations of space and time. The model is used to elaborate the binding mechanism between two sets of processes representing internal space and time, respectively. Further, a stochastic version of the model is developed to investigate the interplay between binding strength and noise. Spectral entropy is used to characterize noise effects on the systems of interacting processes when the binding strength between them is varied. The stochastic modeling results reveal that the spectral entropy values for strongly bound systems are similar to those for weakly bound or even decoupled systems. Thus, the analysis performed in this study allows us to conclude that the binding mechanism is noise-resilient.

Item Type: Article
Subjects: GO for ARCHIVE > Multidisciplinary
Depositing User: Unnamed user with email support@goforarchive.com
Date Deposited: 01 Feb 2024 06:24
Last Modified: 01 Feb 2024 06:24
URI: http://eprints.go4mailburst.com/id/eprint/2117

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