Add to ORKGThe following paper presents a new method for choosing a set of master degrees of freedom for the process of dynamic condensation in order to reduce a finite element model. The general rule is that the more degrees of freedom are eliminated, the more accurate the reduced model is. However, eliminating different subsets (of equal sizes) of degrees of freedom may influence the accuracy differently. Therefore, choosing an optimal subset is crucial. The presented method is based on multicriterial evolutionary optimization which makes it the first nondeterministic approach based on computational optimization technique for this application
In this paper a mixed method by combining an evolutionary and a conventional technique is proposed f...
Abstract:-In this paper, a fast dynamical multi-objective evolutionary algorithm (DMOEA) based of th...
Parallel flow condenser (PFC), which is widely used in automobile air conditioning (AAC) industries,...
An evolutionary method is proposed for the constrained optimization of chemical engineering processe...
The performance of the evolutionary technique, multiobjective simulated annealing (MOSA), is improve...
The effective design of viscoelastic dampers as applied to real-world complex engineering structures...
Abstract: In the dynamic analysis of structures condensation methods are often used to reduce the nu...
Multi-objective optimization of industrial chemical engineering operations using simulated annea...
Dynamic optimization has wide applications in scientific and industrial researches. Multiresolution ...
AUTOMATED redesign for frequency changes of un-damped structural systems is carried out through gene...
In this paper, we describe the use of an evolutionary algorithm (EA) to solve dynamic control optimi...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
International audienceThis paper presents a new approach to robust multi-objective and multi-level o...
Multi-Objective Optimization Problems (MOPs) deal with optimizing several objectives simultaneously ...
Dynamic condensation techniques, used to simplify the dynamic representation of complex mechanical s...
In this paper a mixed method by combining an evolutionary and a conventional technique is proposed f...
Abstract:-In this paper, a fast dynamical multi-objective evolutionary algorithm (DMOEA) based of th...
Parallel flow condenser (PFC), which is widely used in automobile air conditioning (AAC) industries,...
An evolutionary method is proposed for the constrained optimization of chemical engineering processe...
The performance of the evolutionary technique, multiobjective simulated annealing (MOSA), is improve...
The effective design of viscoelastic dampers as applied to real-world complex engineering structures...
Abstract: In the dynamic analysis of structures condensation methods are often used to reduce the nu...
Multi-objective optimization of industrial chemical engineering operations using simulated annea...
Dynamic optimization has wide applications in scientific and industrial researches. Multiresolution ...
AUTOMATED redesign for frequency changes of un-damped structural systems is carried out through gene...
In this paper, we describe the use of an evolutionary algorithm (EA) to solve dynamic control optimi...
The file attached to this record is the author's final peer reviewed version. The Publisher's final ...
International audienceThis paper presents a new approach to robust multi-objective and multi-level o...
Multi-Objective Optimization Problems (MOPs) deal with optimizing several objectives simultaneously ...
Dynamic condensation techniques, used to simplify the dynamic representation of complex mechanical s...
In this paper a mixed method by combining an evolutionary and a conventional technique is proposed f...
Abstract:-In this paper, a fast dynamical multi-objective evolutionary algorithm (DMOEA) based of th...
Parallel flow condenser (PFC), which is widely used in automobile air conditioning (AAC) industries,...