This work presents a new method of fast cubic and higher order image interpolation. The evaluation of the piecewise n-th order polynomial kernels is accelerated by transforming the polynomials into the interval [0,1], which has the advantage that some terms of the polynomials disappear, and that several coefficients could be precalculated, which is proven in the paper. The results are exactly the same as using standard n-th order interpolation, but the computational complexity is reduced. Calculating the interpolation weights for the cubic convolution only needs about 60% of the time compared to the classical method optimized by the Horner's rule. This allows a new efficient implementation for image interpolation
AbstractThis paper presents a parallel algorithm for polynomial interpolation implemented on a mesh ...
Classical Cubic spline interpolation needs to solve a set of equations of high dimension. In this wo...
Cubic convolution is a popular method for image interpolation. Traditionally, the piecewise-cubic ke...
This work presents a new method of fast cubic and higher order image interpolation. The evaluation o...
Image interpolation can be performed by a convolution operation using the neighboring image values. ...
This paper proposes the use of a polynomial interpolator structure (based on Horner's scheme) which ...
We present a new technique for image interpolation based on polynomial transforms. This is an image ...
In this paper we describe a novel general purpose image interpolation method based on the combinatio...
Abstract: Since the works of Newton and Lagrange, interpolation had been a mature technique in the n...
In this paper, an adaptive interpolation algorithm is presented based on the Newton Polynomial to im...
Nearest-neighbour, linear, and various cubic interpolation functions are frequently used in image re...
Cubic convolution has been used for image interpolation since the 1970\u27s and provides a good comp...
In the ofice. it is often necessary to scan a picture at a certain resolution and then reproduce it ...
A reproducing-kernel Hilbert space approach to image inter-polation is introduced. In particular, th...
We establish a link between classical osculatory interpolation and modern convolution-based interpol...
AbstractThis paper presents a parallel algorithm for polynomial interpolation implemented on a mesh ...
Classical Cubic spline interpolation needs to solve a set of equations of high dimension. In this wo...
Cubic convolution is a popular method for image interpolation. Traditionally, the piecewise-cubic ke...
This work presents a new method of fast cubic and higher order image interpolation. The evaluation o...
Image interpolation can be performed by a convolution operation using the neighboring image values. ...
This paper proposes the use of a polynomial interpolator structure (based on Horner's scheme) which ...
We present a new technique for image interpolation based on polynomial transforms. This is an image ...
In this paper we describe a novel general purpose image interpolation method based on the combinatio...
Abstract: Since the works of Newton and Lagrange, interpolation had been a mature technique in the n...
In this paper, an adaptive interpolation algorithm is presented based on the Newton Polynomial to im...
Nearest-neighbour, linear, and various cubic interpolation functions are frequently used in image re...
Cubic convolution has been used for image interpolation since the 1970\u27s and provides a good comp...
In the ofice. it is often necessary to scan a picture at a certain resolution and then reproduce it ...
A reproducing-kernel Hilbert space approach to image inter-polation is introduced. In particular, th...
We establish a link between classical osculatory interpolation and modern convolution-based interpol...
AbstractThis paper presents a parallel algorithm for polynomial interpolation implemented on a mesh ...
Classical Cubic spline interpolation needs to solve a set of equations of high dimension. In this wo...
Cubic convolution is a popular method for image interpolation. Traditionally, the piecewise-cubic ke...