Discrete Normal Vector Field Approximation via Time Scale Calculus
Citation
Akgandüller, Ömer and Atmaca, Sibel Paşalı. "Discrete Normal Vector Field Approximation via Time Scale Calculus" Applied Mathematics and Nonlinear Sciences, vol.5, no.1, 2020, pp.349-360. https://doi.org/10.2478/amns.2020.1.00033Abstract
The theory of time scales calculus have long been a subject to many researchers from different disciplines. Beside the unification and the extension aspects of the theory, it emerge as a powerful tool for mimetic discretization process. In this study, we present a framework to find normal vector fields of discrete point sets in R-3 by using symmetric differential on time scales. A surface parameterized by the tensor product of two time scales can be analogously expressed as the vertex set of non-regular rectangular grids. If the time scales are dense, then the discrete grid structure vanishes. If the time scales are isolated, then the further geometric analysis can be executed by using symmetric dynamic differential. Moreover, we present an algorithmic procedure to determine the symmetric dynamic differential structure on the neighborhood of points in surfaces. Our results indicate that the method we present has good approximation to unit normal vector fields of parameterized surfaces rather than the Delaunay triangulation for some points