Measuring Entropy with Tactile Geometry: A Physical Surface Framework for Complex Systems

William Faulkner

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Abstract

This paper introduces a novel framework for measuring entropy through tactile geometry, utilizing physical surface models to analyze complex systems. By extending the principles outlined in 'Tactile Geometry: A Structured Hypothesis of Skin Lines and Pore Function in Human Sensory Perception,' this study proposes that skin microstructures can serve as analogs for entropy distribution and conformal mapping. The approach offers a tangible method for visualizing and quantifying entropy, bridging thermodynamics and biological morphology to enhance our understanding of disorder and information flow in multifaceted systems.

Version published to 10.20944/preprints202504.0884.v1
Apr 10, 2025

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