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Bibliographic Details
Main Author: White, Kris
Format: Recurso digital
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.15679463
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Table of Contents:
  • <p>This paper introduces a novel cognitive model that explains how humans interpret visual information rapidly, even under distortion, noise, or incomplete input. Drawing from the well-documented ability to read jumbled words as long as the first and last letters are intact, the theory explores how perception hinges not on sequential decoding, but on boundary locking and form completion.</p> <p> </p> <p>The proposed mechanism, termed Rapid Form Resolution (RFR), suggests that humans anchor to stable boundaries—such as object edges or the outer letters of a word—and then complete the internal structure using rhythm, memory, and contextual inference. This model accounts for the brain’s ability to recognize messy handwriting, partially obscured faces, and ambiguous shapes with remarkable speed and accuracy.</p> <p>The paper outlines how this perception strategy generalizes across language, vision, and real-world environments, offering insights into cognitive performance, learning variation, and design. Importantly, it suggests that artificial intelligence systems could adopt similar principles to improve generalization and resilience while reducing dependence on massive training datasets.</p> <p>By reframing perception as a geometry-driven process of inference rather than exhaustive analysis, this work provides a high-efficiency lens for both understanding human cognition and designing more agile, human-aligned AI.</p>