This paper presents a new approach to structural topology optimization. We represent the structural boundary by a level set model that is embedded in a scalar function of a higher dimension. Such level set models are flexible in handling complex topological changes and are concise in describing the boundary shape of the structure. Furthermore, a well-founded mathematical procedure leads to a numerical algorithm that describes a structural optimization as a sequence of motions of the implicit boundaries converging to an optimum solution and satisfying specified constraints. The result is a 3D topology optimization technique that demonstrates outstanding flexibility of handling topological changes, fidelity of boundary representation and degr...
In this paper, a piecewise constant level set (PCLS) method is implemented to solve the structural s...
AbstractThis paper proposes an effective algorithm based on the Level Set Method (LSM) to solve the ...
[abstract not available]https://fount.aucegypt.edu/faculty_book_chapters/1607/thumbnail.jp
In this paper we present a new framework to approach the problem of structural shape and topology op...
We present a new efficient and robust algorithm for topology optimization of 3D cast parts. Special ...
This paper presents an alternative level set method for shape and topology optimization of continuum...
The level-set method has been recently introduced in the field of shape optimization, enabling a smo...
Topology optimization is at the highest level in the field of structural optimization. The introduct...
Topology optimization is at the highest level in the field of structural optimization. The introduct...
A numerical coupling of two recent methods in shape and topology optimization of structures is propo...
Topology is a major area of mathematics concerned with spatial properties that are preserved und...
In practice, a continuum structure is usually designed to carry the traction applied to the boundary...
This paper aims to present a physically meaningful level set method for shape and topology optimizat...
This paper presents an effective parametric approach by extending the conventional level set method ...
A framework to solve topology optimization problems using a level-set based approach and boundary el...
In this paper, a piecewise constant level set (PCLS) method is implemented to solve the structural s...
AbstractThis paper proposes an effective algorithm based on the Level Set Method (LSM) to solve the ...
[abstract not available]https://fount.aucegypt.edu/faculty_book_chapters/1607/thumbnail.jp
In this paper we present a new framework to approach the problem of structural shape and topology op...
We present a new efficient and robust algorithm for topology optimization of 3D cast parts. Special ...
This paper presents an alternative level set method for shape and topology optimization of continuum...
The level-set method has been recently introduced in the field of shape optimization, enabling a smo...
Topology optimization is at the highest level in the field of structural optimization. The introduct...
Topology optimization is at the highest level in the field of structural optimization. The introduct...
A numerical coupling of two recent methods in shape and topology optimization of structures is propo...
Topology is a major area of mathematics concerned with spatial properties that are preserved und...
In practice, a continuum structure is usually designed to carry the traction applied to the boundary...
This paper aims to present a physically meaningful level set method for shape and topology optimizat...
This paper presents an effective parametric approach by extending the conventional level set method ...
A framework to solve topology optimization problems using a level-set based approach and boundary el...
In this paper, a piecewise constant level set (PCLS) method is implemented to solve the structural s...
AbstractThis paper proposes an effective algorithm based on the Level Set Method (LSM) to solve the ...
[abstract not available]https://fount.aucegypt.edu/faculty_book_chapters/1607/thumbnail.jp