Add to ORKGAn extension of 4D linear regression method for scalar iregularly distributed volumetric data gradient estimation will be presented here. The aim is to reach higher accuracy and the main tool is using quadratic regression function. The results will be compared to the original method as well as to the approach based on generalization of the finite differences method. The performance of all the three method will be examined from different points of view
Non parametric estimation of the gradient of the density function in the multivariate case.Winzer, N...
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
Distance fields show up in many problems of 3D vision and rendering, for example, a volumetric fusio...
An extension of 4D linear regression method for scalar iregularly distributed volumetric data gradie...
In this paper a new gradient estimation method is presented which is based on linear regression. Pre...
In this paper a new gradient estimation method is presented which is based on linear regression. Pre...
The paper presents two methods that improve gradient estimation in 3D voxel space. The gradient esti...
The paper presents two methods that improve gradient estimation in 3D voxel space. The gradient esti...
In this document a comparison of three methods of volumetric data gradient vector estimation (one o...
Gradient information is used in volume rendering to classify and color samples along a ray. In this ...
and shaded by interpolating the gradient obtained through a fourth-order central differencing scheme...
and shaded by interpolating the gradient obtained through a fourth-order central differencing scheme...
Abstract-Gradient information is used in volume rendering to classify and color samples along a ray....
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
Non parametric estimation of the gradient of the density function in the multivariate case.Winzer, N...
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
Distance fields show up in many problems of 3D vision and rendering, for example, a volumetric fusio...
An extension of 4D linear regression method for scalar iregularly distributed volumetric data gradie...
In this paper a new gradient estimation method is presented which is based on linear regression. Pre...
In this paper a new gradient estimation method is presented which is based on linear regression. Pre...
The paper presents two methods that improve gradient estimation in 3D voxel space. The gradient esti...
The paper presents two methods that improve gradient estimation in 3D voxel space. The gradient esti...
In this document a comparison of three methods of volumetric data gradient vector estimation (one o...
Gradient information is used in volume rendering to classify and color samples along a ray. In this ...
and shaded by interpolating the gradient obtained through a fourth-order central differencing scheme...
and shaded by interpolating the gradient obtained through a fourth-order central differencing scheme...
Abstract-Gradient information is used in volume rendering to classify and color samples along a ray....
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
Non parametric estimation of the gradient of the density function in the multivariate case.Winzer, N...
International audienceWe investigate the use of a Fourier-domain derivative error kernel to quantify...
Distance fields show up in many problems of 3D vision and rendering, for example, a volumetric fusio...