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Main Author: Davini Hintsanen, Angelina
Format: Recurso digital
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.17500867
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author Davini Hintsanen, Angelina
author_facet Davini Hintsanen, Angelina
contents <p>This record is part of the Davini Zero-Contradiction Law™ Validation Archive, documenting the first full real-time validation phase of the Zero-Contradiction Law (ZC*).</p> <p>Series I: Adaptive Pause Validation — Oscillator Resilience under Environmental Noise demonstrates how coupled systems preserve coherence and recover stability after perturbation, validating the ZC* constant as a universal equilibrium indicator.</p> <p> </p> <p>Six interconnected real-time experiments (T₁–T₆) simulate environmental stress, delay, and cross-domain coupling across physical and informational oscillators.</p> <p>Results confirm the predicted adaptive pause behavior: under incoherent environmental input, systems temporarily suspend interaction (pause) rather than collapse, resuming stable synchronization near ZC ≈ 0.64* once coherence returns.</p> <p> </p> <p>Contents include:</p> <p> </p> <ul> <li>ZC* functional definition and parameters</li> <li>Dual-oscillator, delay, and cross-scale models</li> <li>Python scripts and CSV datasets (5 000 samples per test)</li> <li>Reproducible figures and mean-variance reports for each T₁–T₆ run</li> </ul> <p> </p> <p> </p> <p>All code and data reflect live computational validation of the Davini Zero-Contradiction Law across physical–informational coupling layers.</p> <p> </p> <p>Access: Restricted — full datasets and scripts available for peer or institutional review upon request.</p>
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publishDate 2025
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spellingShingle Davini Zero-Contradiction Law — Adaptive Pause Validation
Davini Hintsanen, Angelina
<p>This record is part of the Davini Zero-Contradiction Law™ Validation Archive, documenting the first full real-time validation phase of the Zero-Contradiction Law (ZC*).</p> <p>Series I: Adaptive Pause Validation — Oscillator Resilience under Environmental Noise demonstrates how coupled systems preserve coherence and recover stability after perturbation, validating the ZC* constant as a universal equilibrium indicator.</p> <p> </p> <p>Six interconnected real-time experiments (T₁–T₆) simulate environmental stress, delay, and cross-domain coupling across physical and informational oscillators.</p> <p>Results confirm the predicted adaptive pause behavior: under incoherent environmental input, systems temporarily suspend interaction (pause) rather than collapse, resuming stable synchronization near ZC ≈ 0.64* once coherence returns.</p> <p> </p> <p>Contents include:</p> <p> </p> <ul> <li>ZC* functional definition and parameters</li> <li>Dual-oscillator, delay, and cross-scale models</li> <li>Python scripts and CSV datasets (5 000 samples per test)</li> <li>Reproducible figures and mean-variance reports for each T₁–T₆ run</li> </ul> <p> </p> <p> </p> <p>All code and data reflect live computational validation of the Davini Zero-Contradiction Law across physical–informational coupling layers.</p> <p> </p> <p>Access: Restricted — full datasets and scripts available for peer or institutional review upon request.</p>
title Davini Zero-Contradiction Law — Adaptive Pause Validation
url https://doi.org/10.5281/zenodo.17500867