The emerging paradigm of grid computing provides a powerful platform for the solution of complex and computationally expensive problems. An example of this is the multi-objective evolutionary design of robust controllers, where each candidate controller design has to be synthesised and the resulting performance of the compensated system evaluated by computer simulation. This paper introduces a grid-enabled framework for the multi-objective optimisation of computationally expensive problems, before using the framework in the multi-objective evolutionary design of a robust lateral stability controller for a real-world aircraft using H-infinity loop shaping
This paper examines the initial development and application of a framework for Multidisciplinary Des...
Evolutionary computing (EC) techniques such as genetic algorithm (GA), genetic programming (GP), evo...
Many complex aeronautical design problems can be formulated with efficient multi-objective evolution...
The aim of this work is to demonstrate the capabilities of evolutionary methods in the design of rob...
Optimisation and decision support tools are vital in all areas of engineering. Many engineering desi...
In this paper, a new robust design method is investigated with a hierarchical asynchronous parallel ...
The use of an evolutionary algorithm in the framework of H1 control theory is being considered as a ...
An evolutionary algorithm approach is proposed for the robust design of control systems. The evoluti...
This paper reviews recent progress made in Evolutionary Algorithms (EAs) for single, multiobjective ...
In this paper, a new robust design method is investigated with a hierarchical asynchronous parallel ...
This paper describes the formulation and application of a design framework that supports the complex...
This paper reviews recent progress made in Evolutionary Algorithms (EAs) for single, multi-objective...
The use of an evolutionary algorithm in the framework of H∞ control theory is being considered as a ...
The aim of this work is to explore the potential and to enhance the capability of evolutionary compu...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
Evolutionary computing (EC) techniques such as genetic algorithm (GA), genetic programming (GP), evo...
Many complex aeronautical design problems can be formulated with efficient multi-objective evolution...
The aim of this work is to demonstrate the capabilities of evolutionary methods in the design of rob...
Optimisation and decision support tools are vital in all areas of engineering. Many engineering desi...
In this paper, a new robust design method is investigated with a hierarchical asynchronous parallel ...
The use of an evolutionary algorithm in the framework of H1 control theory is being considered as a ...
An evolutionary algorithm approach is proposed for the robust design of control systems. The evoluti...
This paper reviews recent progress made in Evolutionary Algorithms (EAs) for single, multiobjective ...
In this paper, a new robust design method is investigated with a hierarchical asynchronous parallel ...
This paper describes the formulation and application of a design framework that supports the complex...
This paper reviews recent progress made in Evolutionary Algorithms (EAs) for single, multi-objective...
The use of an evolutionary algorithm in the framework of H∞ control theory is being considered as a ...
The aim of this work is to explore the potential and to enhance the capability of evolutionary compu...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
This paper examines the initial development and application of a framework for Multidisciplinary Des...
Evolutionary computing (EC) techniques such as genetic algorithm (GA), genetic programming (GP), evo...
Many complex aeronautical design problems can be formulated with efficient multi-objective evolution...