Regulated Accumulation in Dynamical Systems

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Abstract

Dynamical systems exhibit divergence through long-time iteration, spectral proliferation, and uncontrolled accumulation of orbits, measures, and modes. [7][10] Classical responses; symbolic truncation, coarse graining, or probabilistic renormalization; address outcomes rather than structure. [7][8][9] This paper applies the Additive–Multiplicative (AM) Regulator as a fixed mathematical framework to dynamical systems, constraining accumulation itself without altering the dynamics. Regulated accumulation induces spectral saturation, compactness at fixed constraint, and controlled regime change. [2][3] Classical chaotic and ergodic behavior is recovered exactly as a degeneracy limit. [7][10] The conclusion is direct: divergence in dynamical systems is not intrinsic to dynamics, but a consequence of unconstrained accumulation.

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last seen: 2026-05-20T01:45:00.602351+00:00