Review

. 2024 Dec 18:4:1361915.

doi: 10.3389/fnetp.2024.1361915. eCollection 2024.

The constrained-disorder principle defines the functions of systems in nature

Yaron Ilan¹

Affiliations

PMID: 39744508
PMCID: PMC11688203
DOI: 10.3389/fnetp.2024.1361915

Review

The constrained-disorder principle defines the functions of systems in nature

Yaron Ilan. Front Netw Physiol. 2024.

. 2024 Dec 18:4:1361915.

doi: 10.3389/fnetp.2024.1361915. eCollection 2024.

Author

Yaron Ilan¹

Affiliation

¹ Faculty of Medicine, Hadassah Medical Center, Hebrew University, Jerusalem, Israel.

PMID: 39744508
PMCID: PMC11688203
DOI: 10.3389/fnetp.2024.1361915

Abstract

The Constrained Disorder Principle (CDP) defines all systems in nature by their degree of inherent variability. Per the CDP, the intrinsic variability is mandatory for their proper function and is dynamically changed based on pressures. The CDP defines the boundaries of inherent variability as a mechanism for continuous adaptation to internal and external perturbations, enabling survival and function under dynamic conditions. The laws of nature govern the world's natural phenomena and underlie the function of all systems. Nevertheless, the laws of physics do not entirely explain systems' functionality under pressure, which is essential for determining the correct operation of complex systems in nature. Variability and noise are two broad sources of inherent unpredictability in biology and technology. This paper explores how the CDP defines the function of systems and provides examples from various areas in nature where the CDP applies, including climate, genetic, biology, and human behavioral variabilities. According to the CDP, system malfunction results from inappropriate performance of the boundaries of inherent variability. The environment influences the physiological variability, and species interactions influence eco-evolutionary outcomes. The CDP defines human behavior as being driven by randomness and accounts for malfunctions and their corrections. The paper reviews variability-based CDP algorithms and CDP-based second-generation artificial intelligence systems and their potential for improving systems' prediction and efficiency by using variability.

Keywords: artificial intelligence; biological noise; complex systems; complexity; disorder; law of physics; variability.

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Conflict of interest statement

The author declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. YI is the founder of Oberon Sciences.

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The constrained-disorder principle defines the functions of systems in nature

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The constrained-disorder principle defines the functions of systems in nature

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