Generalized conversion of (2n + 1)-point binary to 3n + 1-point quaternary subdivision schemes

Generalized conversion of (2n + 1)-point binary to 3n + 1-point quaternary subdivision schemes

Abstract This research uncovers a connection between binary and quaternary subdivision schemes, presenting a generalized formula to derive $$(3n+1)$$ -point quaternary schemes from $$(2n+1)$$ -point binary schemes, yielding odd-point quaternary schemes when n is even and even-point quaternary scheme...

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Bibliographic Details
Main Authors: Rabia Hameed, Sidra Nosheen, Jihad Younis
Format: Article
Language:English
Published: Nature Portfolio 2025-02-01
Series:Scientific Reports
Subjects:
Binary subdivision scheme
Quaternary subdivision scheme
Monotonicity preservation
Convexity preservation
Online Access:https://doi.org/10.1038/s41598-025-91112-x
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Summary:Abstract This research uncovers a connection between binary and quaternary subdivision schemes, presenting a generalized formula to derive $$(3n+1)$$ -point quaternary schemes from $$(2n+1)$$ -point binary schemes, yielding odd-point quaternary schemes when n is even and even-point quaternary schemes when n is odd. Comprehensive graphical and theoretical analyses demonstrate that these quaternary schemes produce final models similar to their binary counterparts but with fewer iterations, significantly reducing computational costs. Both types exhibit similar shape-preserving properties, with quaternary schemes extending the parametric intervals of continuity and enhancing model smoothness. This method improves computational efficiency and broadens the applicability and flexibility of subdivision schemes, particularly in parametric contexts.
ISSN:2045-2322

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