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Algorithmic Implementation of Visually Guided Interceptive Actions: Harmonic Ratios and Stimulation Invariants

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Publicado en:Algorithms vol. 17, no. 7 (2024), p. 277
Autor principal: Kim, Wangdo
Otros Autores: Araujo, Duarte, Choi, MooYoung, Vette, Albert, Ortiz, Eunice
Publicado:
MDPI AG
Materias:
Sensory stimulation
Velocity
Augmented reality
Adaptive systems
Invariants
Machine vision
Mathematical analysis
Motion perception
Virtual reality
Visual perception
Ratios
Psychological factors
Algorithms
Real time
Vision systems
Optics
Visual perception driven algorithms
Visual control
Virtual environments
Interactive systems
Adaptive algorithms
Acceso en línea:Citation/Abstract
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Resumen:This research presents a novel algorithmic implementation to improve the analysis of visually controlled interception and accompanying motor action through the computational application of harmonic ratios and stimulation invariants. Unlike traditional models that focus mainly on psychological aspects, our approach integrates the relevant constructs into a practical mathematical framework. This allows for dynamic prediction of interception points with improved accuracy and real-time perception–action capabilities, essential for applications in neurorehabilitation and virtual reality. Our methodology uses stimulation invariants as key parameters within a mathematical model to quantitatively predict and improve interception outcomes. The results demonstrate the superior performance of our algorithms over conventional methods, confirming their potential for advancing robotic vision systems and adaptive virtual environments. By translating complex theories of visual perception into algorithmic solutions, this study provides innovative ways to improve motion perception and interactive systems. This study aims to articulate the complex interplay of geometry, perception, and technology in understanding and utilizing cross ratios at infinity, emphasizing their practical applications in virtual and augmented reality settings.
ISSN:1999-4893
DOI:10.3390/a17070277
Fuente:Engineering Database