Abstract
ABSTRACTRealistic leaf models are significant for numerous applications in the plant sciences, for instance, modelling pesticide droplet movement on the leaf surface. In this framework, a smooth surface is necessary to structure the foundation for a theoretical revision of a droplets motion on leaves. The radial basis function is convenient for scattered d-dimensional interpolation and usually extended by a polynomial Pk (x) of degree (k) to improve the method stability. In this research paper, we proposed a new technique for modelling a real leaf surface, which is based on enhancing a cubic polynomial term P3 (x) to the multiquadric Radial basis function (CMRBF). The precision of the CMRBF method is confirmed by applying it to a virtual data and then to a real Frangipani and Anthurium data sets sampled using a laser scanner. It is concluded that the proposed CMRBF method produces a realistic and accurate representation of the leaf surface.
Highlights
The primary aim of the research presented in this paper is the application of surface fitting methods to reconstruct the leaf image
We proposed a new technique for modelling a real leaf surface, which is based on enhancing a cubic polynomial term P3 (x) to the multiquadric Radial basis function (CMRBF)
The precision of the cubic polynomial with multiquadric RBF (CMRBF) method is confirmed by applying it to a virtual data and to a real Frangipani and Anthurium data sets sampled using a laser scanner
Summary
The primary aim of the research presented in this paper is the application of surface fitting methods to reconstruct the leaf image. This aim is important research topic because the precise leaf representation is necessitated for modelling virtual plant, modelling droplet spraying and spreading on the leaf surface and measured the amount of precipitation of pesticide or nutrients [1,2,3]. Oqielat [7,8,9] reconstruct the surface of leaf using Hardy’s multiquadrics and Gaussion RBF interpolation. We added a cubic polynomial to the multiquadric RBF interpolant to reconstruct the leaf surface from threedimensional (3D) real scattered points.
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