What question did this study set out to answer?

The research aims to establish a higher-order constraint for ensuring corrective stability in adaptive systems.

April 8, 2026Open Access

The Principle of Irreducible External Correction: Corrective Stability in Finite Adaptive Systems

Key Points

The research aims to establish a higher-order constraint for ensuring corrective stability in adaptive systems.
Derivation of a constraint principle based on the feasibility law.
Decomposition of corrective authority into four branches: feasibility, irreducibility, sustained access, and authenticity.
Application of the principle to stability and alignment in systems.
Identified the need for an external corrective channel for stable correction.
Decomposed corrective authority into four essential components.
Presented the principle as a physics-level constraint on adaptive system correction.

Abstract

This paper derives a higher-order constraint principle for corrective stability in finite adaptive systems. Building on the feasibility law, it argues that stable correction requires an external corrective channel the system does not own, and decomposes corrective authority into four necessary branches: feasibility, channel irreducibility, sustained exogenous access, and corrective authenticity. The paper frames these results as a physics-level constraint on correction, with alignment treated as one important application rather than the only domain.

The Principle of Irreducible External Correction: Corrective Stability in Finite Adaptive Systems

Key Points

Abstract

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