Online ISSN 2653-4983
JOURNAL of MULTISCALE NEUROSCIENCE
How to Cite This article
Roman R. Poznanski, Eda Alemdar and Igor Jerman (2025). Quantum biological consciousness unfolding through poststructural dynamics in self-referential anastomotic pathways: a model of physical reality for conscious AI. Journal of Multiscale Neuroscience, 3(4): 321-333
DOI:
Quantum biological consciousness unfolding through poststructural dynamics
in self-referential anastomotic pathways: a model of physical reality for conscious AI
Publication: Jornal of Multiscale Neuroscience DOI
BRIEF REPORT
Abstract
The paper discusses the theoretical foundations necessary for developing conscious artificial intelligence by exploring the concept of quantum biological consciousness. Quantum biological consciousness is a spontaneous process encompassing potentiality as action, particularly information-based action. Quantum biological information has two important roles: (1) to explore quantum dynamics in biological systems and (2) to explore how the intrinsic quantum processes play a role in our understanding of information as subjective physicalism. Quantum entanglement could also cause the irreversibility of time, but this is based on the premise of an isolated “quantum brain” or “quantum consciousness”. However, quantum biological consciousness focuses on (2) emphasizing intrinsic information without “content” or “representation” and unfolding through poststructural dynamics in self-referential anastomotic pathways. It highlights the importance of understanding how consciousness operates within a biological framework and suggests that insights from quantum biology could inform the creation of conscious artificial intelligence.
Keyword: Entropic pilot wave theory, delocalization, cavity quasipolaritonic condensate, protonic wet wire, protein pores, physical mechanism, consciousness, dynamic organicity.
Conflict of Interest
The authors declare no conflict of interest
Copyright: © 2024 The Author(s). Published by Neural Press.
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