International audienceThis paper introduces an approach based on Artificial Embryogeny for truss design to address the problem of finding the best truss structure for a given loading. In this setup, the basic idea is to optimize the size and length of beams in a truss through the actions of a set of cells that are distributed over the very truss structure. Given information at the mechanical level (beam strain), each cell controller is able to modify the local truss structure (beam size and length) during a developmental process. The advantage of such a method relies on the idea that a template cell controller is duplicated over all cells, keeping the optimization search space very low, while each cell may act in a different manner dependin...
The computing circuit for search the optimal size/shape of structural design to improve the bearing ...
In this study we present an efficient new hybrid meta-heuristic – named in other context ANGEL – for...
In this paper, a technology enabling to optimize the topology of truss or frame structures with gene...
International audienceThis paper introduces an approach based on Artificial Embryogeny for truss des...
In order to meet the future needs of ever-shorter device development processes, Fraunhofer IWU has d...
This paper focuses on the application of genetic algorithms (GAs) to structural optimisation problem...
This paper presents an application of evolutionary optimization methods to design of space trusses. ...
In this paper, topology and shape optimization of truss or frame structures is discussed. The optimi...
Engineering design has traditionally involved human engineers manually creating and iterating on des...
Various design optimization methods for trusses layouts have been developed to find the optimum trus...
Lightweight structures, especially trusses, have attracted a tremendous attention due to their exten...
Xiao A, Wang B, Jin Y. Evolutionary truss layout optimization using the vectorized structure approac...
The prevalent strategy in the topology optimization phase is to select a subset of members existing ...
Artificial Embryogeny (AE) can be described as the use of a dynamical system as a mid-step in a desi...
A novel parameterization concept for the optimization of truss structures by means of evolutionary a...
The computing circuit for search the optimal size/shape of structural design to improve the bearing ...
In this study we present an efficient new hybrid meta-heuristic – named in other context ANGEL – for...
In this paper, a technology enabling to optimize the topology of truss or frame structures with gene...
International audienceThis paper introduces an approach based on Artificial Embryogeny for truss des...
In order to meet the future needs of ever-shorter device development processes, Fraunhofer IWU has d...
This paper focuses on the application of genetic algorithms (GAs) to structural optimisation problem...
This paper presents an application of evolutionary optimization methods to design of space trusses. ...
In this paper, topology and shape optimization of truss or frame structures is discussed. The optimi...
Engineering design has traditionally involved human engineers manually creating and iterating on des...
Various design optimization methods for trusses layouts have been developed to find the optimum trus...
Lightweight structures, especially trusses, have attracted a tremendous attention due to their exten...
Xiao A, Wang B, Jin Y. Evolutionary truss layout optimization using the vectorized structure approac...
The prevalent strategy in the topology optimization phase is to select a subset of members existing ...
Artificial Embryogeny (AE) can be described as the use of a dynamical system as a mid-step in a desi...
A novel parameterization concept for the optimization of truss structures by means of evolutionary a...
The computing circuit for search the optimal size/shape of structural design to improve the bearing ...
In this study we present an efficient new hybrid meta-heuristic – named in other context ANGEL – for...
In this paper, a technology enabling to optimize the topology of truss or frame structures with gene...