What question did this study set out to answer?

To establish a theoretical framework interpreting communication as structured state transport on an information manifold.

March 13, 2026Open Access

Universal Information Field Theory

Puntos clave

To establish a theoretical framework interpreting communication as structured state transport on an information manifold.
Introduced concepts such as Shannon entropy and Fisher information geometry.
Explored communication paths as geodesics in information space.
Examined structured noise as a telemetry encoding method.
Investigated retina-like preprocessing to enhance task-relevant Fisher information.
Optimal communication paths are identified as geodesics in information space.
Structured noise effectively encodes telemetry about channel or network states.
Task-relevant Fisher information can be increased under specific signal and noise conditions.

Resumen

Universal Information Field Theory introduces a unified theoretical framework in which communication is interpreted as structured state transport on an information manifold and, more generally, as the evolution of an information field. The work combines: - Shannon entropy - Fisher information geometry - geodesic communication - structured noise telemetry - retina-inspired task-relevant detection - thermodynamic information geometry - network curvature and information-gravity analogies Three central theoretical claims are developed: 1. optimal communication paths are geodesics in information space, 2. structured noise can encode telemetry about channel or network state, 3. retina-like preprocessing can increase task-relevant Fisher information under suitable signal and noise conditions. This deposit is a theoretical research monograph and framework document.

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