Universal natural shapes: from unifying shape description to simple methods for shape analysis and boundary value problems

Universal natural shapes: from unifying shape description to simple methods for shape analysis and boundary value problems

Gielis curves and surfaces can describe a wide range of natural shapes and they have been used in various studies in biology and physics as descriptive tool. This has stimulated the generalization of widely used computational methods. Here we show that proper normalization of the Levenberg-Marquardt...

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Veröffentlicht in:PloS one 2012-09, Vol.7 (9), p.e29324-e29324
Hauptverfasser: Gielis, Johan, Caratelli, Diego, Fougerolle, Yohan, Ricci, Paolo Emilio, Tavkelidze, Ilia, Gerats, Tom
Format: Artikel
Sprache:eng
Schlagworte:
21st century
Algorithms
Analysis
Analysis of PDEs
Applied mathematics
Biology
Boundary value problems
Complexity
Computer applications
Computer Science
Computer Vision and Pattern Recognition
Computing time
Dirichlet problem
Geometry
Laplace equation
Life sciences
Mathematics
Models, Theoretical
Molecular biology
Morphogenesis
Physics
Power efficiency
Software
Symmetry
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Zusammenfassung:Gielis curves and surfaces can describe a wide range of natural shapes and they have been used in various studies in biology and physics as descriptive tool. This has stimulated the generalization of widely used computational methods. Here we show that proper normalization of the Levenberg-Marquardt algorithm allows for efficient and robust reconstruction of Gielis curves, including self-intersecting and asymmetric curves, without increasing the overall complexity of the algorithm. Then, we show how complex curves of k-type can be constructed and how solutions to the Dirichlet problem for the Laplace equation on these complex domains can be derived using a semi-Fourier method. In all three methods, descriptive and computational power and efficiency is obtained in a surprisingly simple way.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0029324