Preserving Positivity And Monotonicity Of Real Data Using Bézier-Ball Function And Radial Basis Function
In this thesis, a rational cubic Bézier-Ball function which refers to a rational cubic Bézier function expressed in terms of Ball control points and weights are used to preserve positivity and monotonicity of real data sets. Four shape parameters are proposed to preserve the characteristics of th...
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my.usm.eprints.48694 http://eprints.usm.my/48694/ Preserving Positivity And Monotonicity Of Real Data Using Bézier-Ball Function And Radial Basis Function Ahmad, Afida QA1 Mathematics (General) In this thesis, a rational cubic Bézier-Ball function which refers to a rational cubic Bézier function expressed in terms of Ball control points and weights are used to preserve positivity and monotonicity of real data sets. Four shape parameters are proposed to preserve the characteristics of the data. A rational Bi-Cubic Bézier-Ball function is introduced to preserve the positivity of surface generated from real data set and from known functions. Eight shape parameters proposed can be modified to preserve the positivity of the surface. Interpolating 2D and 3D real data using radial basis function (RBF) is proposed as an alternative method to preserve the positivity of the data. Two types of RBF which are Multiquadric (MQ) function and Gaussian function, which contains a shape parameter are used. The boundaries (lower and upper limit) of the shape parameter which preserves the positivity of real data are proposed. Comparisons are made using the root-mean-square (RMS) error between the proposed interpolation methods with existing works in literature. It was found that MQ function and rational cubic Bézier-Ball is comparable with existing literature in preserving positivity for both curves and surfaces. For preserving monotonicity, the rational cubic Bézier-Ball is comparable but the MQ quasi-interpolation introduced can only linearly interpolate the curve and the RMS values are big. Gaussian function is able to preserve positivity of curves and surfaces but with unwanted oscillations which result to unsmooth curves. 2018-08 Thesis NonPeerReviewed application/pdf en http://eprints.usm.my/48694/1/AFIDA%20BINTI%20AHMAD_hj.pdf Ahmad, Afida (2018) Preserving Positivity And Monotonicity Of Real Data Using Bézier-Ball Function And Radial Basis Function. PhD thesis, Universiti Sains Malaysia. |
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QA1 Mathematics (General) Ahmad, Afida Preserving Positivity And Monotonicity Of Real Data Using Bézier-Ball Function And Radial Basis Function |
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In this thesis, a rational cubic Bézier-Ball function which refers to a rational
cubic Bézier function expressed in terms of Ball control points and weights are used
to preserve positivity and monotonicity of real data sets. Four shape parameters are
proposed to preserve the characteristics of the data. A rational Bi-Cubic Bézier-Ball
function is introduced to preserve the positivity of surface generated from real data set
and from known functions. Eight shape parameters proposed can be modified to
preserve the positivity of the surface. Interpolating 2D and 3D real data using radial
basis function (RBF) is proposed as an alternative method to preserve the positivity of
the data. Two types of RBF which are Multiquadric (MQ) function and Gaussian
function, which contains a shape parameter are used. The boundaries (lower and
upper limit) of the shape parameter which preserves the positivity of real data are
proposed. Comparisons are made using the root-mean-square (RMS) error between
the proposed interpolation methods with existing works in literature. It was found that
MQ function and rational cubic Bézier-Ball is comparable with existing literature in
preserving positivity for both curves and surfaces. For preserving monotonicity, the
rational cubic Bézier-Ball is comparable but the MQ quasi-interpolation introduced
can only linearly interpolate the curve and the RMS values are big. Gaussian function
is able to preserve positivity of curves and surfaces but with unwanted oscillations
which result to unsmooth curves. |
| format |
Thesis |
| author |
Ahmad, Afida |
| author_facet |
Ahmad, Afida |
| author_sort |
Ahmad, Afida |
| title |
Preserving Positivity And
Monotonicity Of Real Data Using
Bézier-Ball Function And Radial Basis
Function |
| title_short |
Preserving Positivity And
Monotonicity Of Real Data Using
Bézier-Ball Function And Radial Basis
Function |
| title_full |
Preserving Positivity And
Monotonicity Of Real Data Using
Bézier-Ball Function And Radial Basis
Function |
| title_fullStr |
Preserving Positivity And
Monotonicity Of Real Data Using
Bézier-Ball Function And Radial Basis
Function |
| title_full_unstemmed |
Preserving Positivity And
Monotonicity Of Real Data Using
Bézier-Ball Function And Radial Basis
Function |
| title_sort |
preserving positivity and
monotonicity of real data using
bézier-ball function and radial basis
function |
| publishDate |
2018 |
| url |
http://eprints.usm.my/48694/1/AFIDA%20BINTI%20AHMAD_hj.pdf http://eprints.usm.my/48694/ |
| _version_ |
1695531555008544768 |