保存先:
| 第一著者: | |
|---|---|
| フォーマット: | Recurso digital |
| 言語: | 英語 |
| 出版事項: |
Zenodo
2026
|
| 主題: | |
| オンライン・アクセス: | https://doi.org/10.5281/zenodo.19963076 |
| タグ: |
タグ追加
タグなし, このレコードへの初めてのタグを付けませんか!
|
目次:
- <p>This record contains Paper A Registry Update v3.1 for the Deficit-Fractal Governance (DFG) Empirical Programme.</p> <p>This document updates the operating registry for the paper “A Scale-Dependent Empirical Taxonomy for Deficit-Fractal Governance.” It consolidates the Round 1–19 empirical programme into an authoritative v3.1 baseline for Paper A’s Tables 9–11, regime-boundary registry, Cross-Cell Consistency framework, and Regime-Search Methodology.</p> <p>The central conclusion is that the DFG empirical programme should be interpreted as a regime atlas rather than a theory cemetery. Cell-level incompatibility does not immediately imply theory-level falsification; instead, it triggers targeted search for operationalisation, substrate, observable, scale, or protocol mismatch. Theory-level retirement requires repeated incompatibility across exhaustively searched rescue paths.</p> <p>This v3.1 update integrates 24 experiment families, 31 executable experiment runs/sub-versions, 6 protocol scaffolds, 5 paper-quality syntheses, one cross-cell consistency note, and the Compatibility Atlas v1.3.</p> <p>Key updates include:<br>- H1-family registry update: neural σ≈1 operating-point criticality is supported across 24 independent neural subjects and 44 subject × protocol observations, while universal neural τ≈3/2 remains quarantined; a synthetic Manna + Watts-Strogatz low-dissipation joint regime is located and finite-size robust.<br>- H4-family registry update: financial critical slowing down is supported under substrate-matched observables across major financial crises.<br>- H5-family registry update: recovery-time H5 is reframed as a dynamical Jacobian spectral-radius prediction, while graph Laplacian λ₂ is retained as an objective-dependent connectivity predictor.<br>- Topology-Level Containment update: λ₂ predicts connectivity strength, with objective-dependent consequences for structural robustness and epidemic spread.<br>- Intervention Paradox update: the paradox is located in nonlinear model classes and not supported in linear systems.<br>- Cross-Cell Consistency framework: subject-level consistency across independent operationalisations is introduced as supportive evidence without propagating compatibility across cells.</p> <p>This record is part of the DFG Empirical Programme submission package and should be read together with the Compatibility Atlas v1.3.</p>