Systems of Oscillators Designed for a Specific Conscious Percept
Pavel Kraikivski

TL;DR
This paper introduces a mathematical and dynamical system of coupled oscillators designed to mimic specific conscious percepts, providing a new framework for analyzing neural dynamics related to consciousness.
Contribution
It presents a novel oscillator-based system that preserves perceptual properties and can be used to study neural correlates of consciousness.
Findings
System models a space-like percept using oscillators.
Retains mutual relationships among processes.
Facilitates analysis of neural dynamics for consciousness.
Abstract
As put forward by neuroscientists, the mechanisms of consciousness can be elucidated by revealing correlations between neural dynamics and specific conscious percepts. Recently, I have elaborated on the mathematical formulation for a system of processes that are mutually connected to be isomorphic to a conscious percept of a point in space. Importantly, in such a system, any process can be derived through all other processes that form its complement, or interpretation. To generate such a solution, I am proposing a dynamical system of oscillators coupled in a manner to preserve the properties of a percept. Specifically, I crafted a dynamical system that retains the mutual relationships among processes, forming an operational map isomorphic to a distance matrix that mimics a percept of space-like properties. The study and results pave a novel way to analyze the dynamics of neural-like…
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