A new method of structural topology optimisation is proposed in which an evolutionary approach is used with boundary element and level set methods. During the optimisation iterations, the proposed method automatically introduces internal cavities and does not rely on an initial guess topology with pre-existing holes. The zero level set contours describing both the external geometry and the internal cavities are converted to non-uniform rational B-splines (NURBS) for smooth boundary element meshing at each iteration. The optimal geometries generated by the proposed method for two-dimensional cases closely resemble to those available in the literature for a range of benchmark examples in the field of topology optimisation
This paper presents an alternative level set method for shape and topology optimization of continuum...
This work investigates the use of hierarchical mesh decomposition strategies for topology optimisati...
International audienceIn this article, we discuss an approach for geometry and topology optimization...
A new method of structural topology optimisation is proposed in which an evolutionary approach is us...
A new method of structural topology optimisation is proposed in which an evolutionary approach is us...
The structural topology optimisation method presented in this paper is based on the boundary element...
This paper presents a three-dimensional structural optimisation approach based on the boundary eleme...
A new topology optimisation algorithm is implemented and presented for compliance minimisation of co...
This paper will give a short survey about topology optimization of structures. It is particularly fo...
A framework to solve topology optimization problems using a level-set based approach and boundary el...
Structural Optimization, in general, can be interpreted as “the point” where the required structural...
This study presents a new algorithm for structural topological optimization of two-dimensional conti...
An approach for structural optimization is proposed, which combines the versatility of the level set...
A finite element (FE) based level set method is proposed for structural topology optimization proble...
Computational design optimization provides designers with automated techniques to develop novel and ...
This paper presents an alternative level set method for shape and topology optimization of continuum...
This work investigates the use of hierarchical mesh decomposition strategies for topology optimisati...
International audienceIn this article, we discuss an approach for geometry and topology optimization...
A new method of structural topology optimisation is proposed in which an evolutionary approach is us...
A new method of structural topology optimisation is proposed in which an evolutionary approach is us...
The structural topology optimisation method presented in this paper is based on the boundary element...
This paper presents a three-dimensional structural optimisation approach based on the boundary eleme...
A new topology optimisation algorithm is implemented and presented for compliance minimisation of co...
This paper will give a short survey about topology optimization of structures. It is particularly fo...
A framework to solve topology optimization problems using a level-set based approach and boundary el...
Structural Optimization, in general, can be interpreted as “the point” where the required structural...
This study presents a new algorithm for structural topological optimization of two-dimensional conti...
An approach for structural optimization is proposed, which combines the versatility of the level set...
A finite element (FE) based level set method is proposed for structural topology optimization proble...
Computational design optimization provides designers with automated techniques to develop novel and ...
This paper presents an alternative level set method for shape and topology optimization of continuum...
This work investigates the use of hierarchical mesh decomposition strategies for topology optimisati...
International audienceIn this article, we discuss an approach for geometry and topology optimization...