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This research examines the universality of an optimal coupling constant in transport systems.

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April 30, 2026Open Access

Constraint-Bounded Transport Exhibits a Bounded Optimal Coupling Regime: An Invariance Test of ΔΦ-Based Dynamics

Key Points

This research examines the universality of an optimal coupling constant in transport systems.
Tested a constraint-bounded transport model across various graph topologies and system sizes.
Assessed the effects of noise levels and different update rules on transport efficiency.
Observed that the optimal coupling constant varies and is not universally fixed.
Identified a bounded intermediate coupling regime where transport efficiency peaks.
Found that both under-coupling and over-coupling lead to decreased transport performance.

Abstract

This work tests whether a fixed optimal coupling constant (p* ≈ 0.106) universally governs transport efficiency in systems described by ΔΦ = ρ × v.A constraint-bounded transport model was evaluated across multiple graph topologies, system sizes, noise levels, and update rules. The results show that p* is not invariant and varies significantly across implementations.However, all tested systems exhibit a consistent structural pattern: transport efficiency peaks within a bounded intermediate coupling regime. Both under-coupling and over-coupling degrade performance.The central finding is that constraint-bounded transport systems exhibit a robust optimal coupling regime rather than a fixed optimal value. This reframes the hypothesis as a constraint-defined phase structure.

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