We present an isogeometric design and analysis approach based on NURBS-compatible subdivision surfaces. The approach enables the description of watertight free-form surfaces of arbitrary degree, including conic sections and an accurate simulation and analysis based directly on the designed surface. To explore the seamless integration of design and analysis provided by the isogeometric approach, we built a prototype software which combines free-form modelling tools with thin shell simulation tools to offer the designer a wide range of design and analysis instruments
Increasingly powerful hard- and software allows for the numerical simulation of complex physical phe...
The drawback in today's computational analysis in structural engineering is that design and analysis...
Isogeometric Analysis has the potential to achieve efficient integration of CAD and Finite Element A...
We present a discretisation of Kirchhoff-Love thin shells based on a subdivision algorithm that gene...
This Paper aims to investigate Trimmed NURBS surfaces for Isogeometric Analysis(IGA). NURBS are Non-...
We present a discretisation of Kirchhoff-Love thin shells based on a subdivision algorithm that gene...
NURBS elements rather than traditional finite elements for analysis. NURBS is the standard approach ...
Isogeometric analysis is a new concept of Finite element method which has been proposed to bridge th...
The novel idea of isogeometric analysis is to use the basis functions of the geometry description of...
In isogeometric analysis introduced by T.J.R. Hughes in 2005 traditional Finite Elements are r...
Ironically, neither engineering design nor engineering analysis consumes the majority of the time an...
We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed bounda...
International audienceWe explore T-splines, a generalization of NURBS enabling local refinement, as ...
The first paper on isogeometric analysis appeared only five years ago [1], and the first book appear...
International audienceThe concept of isogeometric analysis is proposed. Basis functions generated fr...
Increasingly powerful hard- and software allows for the numerical simulation of complex physical phe...
The drawback in today's computational analysis in structural engineering is that design and analysis...
Isogeometric Analysis has the potential to achieve efficient integration of CAD and Finite Element A...
We present a discretisation of Kirchhoff-Love thin shells based on a subdivision algorithm that gene...
This Paper aims to investigate Trimmed NURBS surfaces for Isogeometric Analysis(IGA). NURBS are Non-...
We present a discretisation of Kirchhoff-Love thin shells based on a subdivision algorithm that gene...
NURBS elements rather than traditional finite elements for analysis. NURBS is the standard approach ...
Isogeometric analysis is a new concept of Finite element method which has been proposed to bridge th...
The novel idea of isogeometric analysis is to use the basis functions of the geometry description of...
In isogeometric analysis introduced by T.J.R. Hughes in 2005 traditional Finite Elements are r...
Ironically, neither engineering design nor engineering analysis consumes the majority of the time an...
We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed bounda...
International audienceWe explore T-splines, a generalization of NURBS enabling local refinement, as ...
The first paper on isogeometric analysis appeared only five years ago [1], and the first book appear...
International audienceThe concept of isogeometric analysis is proposed. Basis functions generated fr...
Increasingly powerful hard- and software allows for the numerical simulation of complex physical phe...
The drawback in today's computational analysis in structural engineering is that design and analysis...
Isogeometric Analysis has the potential to achieve efficient integration of CAD and Finite Element A...