The finite cell method (FCM) belongs to the class of immersed boundary methods, and combines the fictitious domain approach with high-order approximation, adaptive integration and weak imposition of unfitted Dirichlet boundary conditions. Its main idea consists of the extension of the physical domain of interest beyond its potentially complex boundaries into a larger embedding domain of simple geometry, which can be meshed easily by a structured grid. We present an isogeometric design-through-analysis methodology based on the B-spline version of the finite cell method, which allows for the seamless integration of fully three-dimensional parameterizations of complex engineering parts described by T-spline surfaces into finite element analysi...
In this thesis we will explore the possibilities of making a finite element solver for partial diffe...
We couple collocated isogeometric boundary element methods and unstructured analysis-suitable T-spli...
Isogeometric analysis, as a generalization of the finite element method, employs spline methods to a...
The finite cell method (FCM) belongs to the class of immersed boundary methods, and combines the fic...
The finite cell method (FCM) belongs to the class of immersed boundary methods, and combines the fic...
The advent of isogeometric analysis (IGA) using the same basis functions for design and analysis con...
We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed bounda...
Enforcing essential boundary conditions plays a central role in immersed boundary methods. Nitsche's...
The Finite Cell Method (FCM) together with Isogeometric analysis (IGA) has been applied successfully...
The first paper on isogeometric analysis appeared only five years ago [1], and the first book appear...
The finite cell method is an embedded domain method, which combines the fictitious domain approach w...
International audienceThe concept of isogeometric analysis is proposed. Basis functions generated fr...
In this thesis we will explore the possibilities of making a finite element solver for partial diffe...
We couple collocated isogeometric boundary element methods and unstructured analysis-suitable T-spli...
Isogeometric analysis, as a generalization of the finite element method, employs spline methods to a...
The finite cell method (FCM) belongs to the class of immersed boundary methods, and combines the fic...
The finite cell method (FCM) belongs to the class of immersed boundary methods, and combines the fic...
The advent of isogeometric analysis (IGA) using the same basis functions for design and analysis con...
We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed bounda...
Enforcing essential boundary conditions plays a central role in immersed boundary methods. Nitsche's...
The Finite Cell Method (FCM) together with Isogeometric analysis (IGA) has been applied successfully...
The first paper on isogeometric analysis appeared only five years ago [1], and the first book appear...
The finite cell method is an embedded domain method, which combines the fictitious domain approach w...
International audienceThe concept of isogeometric analysis is proposed. Basis functions generated fr...
In this thesis we will explore the possibilities of making a finite element solver for partial diffe...
We couple collocated isogeometric boundary element methods and unstructured analysis-suitable T-spli...
Isogeometric analysis, as a generalization of the finite element method, employs spline methods to a...