Add to ORKGThis screen demo introduces an educational function of VisualFEA, related to intra-element interpolation of nodal values using shape functions. This feature of the program is intended to help understand the nature of the shape functions and computational aspects of interpolation. The characteristics of element modeling can be examined through the graphical representation. They include the inter - element continuity related to compatibility of the shape functions between adjacent elements.1_jgtgwbw
AbstractFollowing a precise definition of shape-preserving interpolating functions to data, we const...
An active problem in digital geometry processing is shape interpolation which aims to generate a con...
In this project we have addressed interactive shape modelling problem using the function-based appro...
International audienceThe comparison of finite elements (FE) and experimental data fields have becom...
This screen demo introduces an educational function of VisualFEA for teaching and learning the proce...
AbstractAn interpolation function for triangular mid-edge finite elements is developed using an alge...
This paper describes a knowledge unit and the use of a software tool, DesignMentor, for teaching a v...
This paper is an overview of recent developments in the construction of finite element interpolants,...
A Finite Element technique to interpolate general data (function values and its derivatives) has bee...
This thesis deals with creation of a~tool for progressive interpolation of shape of a~3D polygonal m...
This screen demo shows the basic procedure of finite element analysis by VisualFEA, using a simple e...
Modern modeling systems enable artists to create highquality content, but provide limited support fo...
This paper presents a methodology for generating high-order shape functions for the complete family ...
112 p.In this work, interactive shape modelling is addressed using a function-based approach, where ...
In this paper we address interactive shape modelling of geometric shapes defined by mathematical fun...
AbstractFollowing a precise definition of shape-preserving interpolating functions to data, we const...
An active problem in digital geometry processing is shape interpolation which aims to generate a con...
In this project we have addressed interactive shape modelling problem using the function-based appro...
International audienceThe comparison of finite elements (FE) and experimental data fields have becom...
This screen demo introduces an educational function of VisualFEA for teaching and learning the proce...
AbstractAn interpolation function for triangular mid-edge finite elements is developed using an alge...
This paper describes a knowledge unit and the use of a software tool, DesignMentor, for teaching a v...
This paper is an overview of recent developments in the construction of finite element interpolants,...
A Finite Element technique to interpolate general data (function values and its derivatives) has bee...
This thesis deals with creation of a~tool for progressive interpolation of shape of a~3D polygonal m...
This screen demo shows the basic procedure of finite element analysis by VisualFEA, using a simple e...
Modern modeling systems enable artists to create highquality content, but provide limited support fo...
This paper presents a methodology for generating high-order shape functions for the complete family ...
112 p.In this work, interactive shape modelling is addressed using a function-based approach, where ...
In this paper we address interactive shape modelling of geometric shapes defined by mathematical fun...
AbstractFollowing a precise definition of shape-preserving interpolating functions to data, we const...
An active problem in digital geometry processing is shape interpolation which aims to generate a con...
In this project we have addressed interactive shape modelling problem using the function-based appro...