In this paper, meshless methods and partition of unity based finite element methods are reviewed. In meshless methods, the approximation is built without the explicit connectivity information between the nodes; moving-least squares approximants and natural neighbor-based interpolants are discussed. The enrichment of the finite element approximation through the partition of unity framework is described, and recent advances in crack modeling are summarized
peer reviewedThis paper proposes a three-dimensional meshfree method for arbitrary crack initiation ...
A technique to couple finite element discretizations with any partition of unity based approximation...
peer reviewedThis paper reviews different crack tracking techniques in three-dimensions applicable i...
ABSTRACT: In this paper, meshless methods and partition of unity based finite element methods are re...
Finite element method has been the dominant technique in computational mechanics in the past decades...
We will present a meshfree method based on the local partition of unity for cohesive cracks. The cr...
In this paper, we present mesh-independent modeling of discontinuous fields on polygonal and quadtre...
International audienceAn improvement of a new technique for modelling cracks in the finite element f...
The paper presents the basic ideas and the mathematical foundation of the partition of unity finite ...
In this paper we present a general approach to embed arbitrary approximation spaces into classical f...
Meshfree methods are viewed as next generation computational techniques. With evident limitations of...
This paper develops a new concurrent simulation technique to couple the meshfree method with the fin...
The Generalized Finite Element Method (GFEM) presented in this paper combines and extends the best f...
This paper is concerned with the generalization of the finite element method via the use of non-poly...
The discrete modeling of crack propagation with arbitrary crack paths is still a field for many rese...
peer reviewedThis paper proposes a three-dimensional meshfree method for arbitrary crack initiation ...
A technique to couple finite element discretizations with any partition of unity based approximation...
peer reviewedThis paper reviews different crack tracking techniques in three-dimensions applicable i...
ABSTRACT: In this paper, meshless methods and partition of unity based finite element methods are re...
Finite element method has been the dominant technique in computational mechanics in the past decades...
We will present a meshfree method based on the local partition of unity for cohesive cracks. The cr...
In this paper, we present mesh-independent modeling of discontinuous fields on polygonal and quadtre...
International audienceAn improvement of a new technique for modelling cracks in the finite element f...
The paper presents the basic ideas and the mathematical foundation of the partition of unity finite ...
In this paper we present a general approach to embed arbitrary approximation spaces into classical f...
Meshfree methods are viewed as next generation computational techniques. With evident limitations of...
This paper develops a new concurrent simulation technique to couple the meshfree method with the fin...
The Generalized Finite Element Method (GFEM) presented in this paper combines and extends the best f...
This paper is concerned with the generalization of the finite element method via the use of non-poly...
The discrete modeling of crack propagation with arbitrary crack paths is still a field for many rese...
peer reviewedThis paper proposes a three-dimensional meshfree method for arbitrary crack initiation ...
A technique to couple finite element discretizations with any partition of unity based approximation...
peer reviewedThis paper reviews different crack tracking techniques in three-dimensions applicable i...