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Main Authors:	Fraser, Dagmar Scott, Di Luca, Massimiliano, Cook, Jennifer Louise
Format:	Recurso digital
Language:
Published:	Zenodo 2026
Subjects:	power-law kinematics motor-control velocity-curvature matlab autism movement-analysis
Online Access:	https://doi.org/10.5281/zenodo.19002248
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author	Fraser, Dagmar Scott Di Luca, Massimiliano Cook, Jennifer Louise
author_facet	Fraser, Dagmar Scott Di Luca, Massimiliano Cook, Jennifer Louise
contents	Systematic characterisation framework for velocity-curvature power law analytical protocols. Evaluates six pipeline combinations across 14.7 million parameter configurations to determine measurement precision boundaries for detecting small effect sizes (\|Δβ\| ≈ 0.03) in clinical populations.
format	Recurso digital
id	zenodo_https___doi_org_10_5281_zenodo_19002248
institution	Zenodo
language
publishDate	2026
publisher	Zenodo
record_format	zenodo
spellingShingle	Velocity-Curvature Power Law Protocol Simulation Fraser, Dagmar Scott Di Luca, Massimiliano Cook, Jennifer Louise power-law kinematics motor-control velocity-curvature matlab autism movement-analysis Systematic characterisation framework for velocity-curvature power law analytical protocols. Evaluates six pipeline combinations across 14.7 million parameter configurations to determine measurement precision boundaries for detecting small effect sizes (\|Δβ\| ≈ 0.03) in clinical populations.
title	Velocity-Curvature Power Law Protocol Simulation
topic	power-law kinematics motor-control velocity-curvature matlab autism movement-analysis
url	https://doi.org/10.5281/zenodo.19002248

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