Conference paperMultiple objective optimisation (MOO) is an optimisation approach that has been widely used to solve optimisation problems with more than one objective function. The benefit of this approach is that it generates a set of non-dominated solutions which a policy maker can explore and evaluate before making a final optimal selection. This paper demonstrates that MOO can be used to assist policy makers explore a richer set of alternatives when deciding on a range of values for key parameters in their system dynamics model. In order to demonstrate the approach, a well-known case study "The Domestic Manufacturing Company" is used, and a stock and flow model and a multiple objective optimiser are designed and coded. The results show...
Configuring and reconfiguring a manufacturing system is presented as an issue with increasing import...
Purpose: This paper aims to optimise the dynamic performance of production–inventory control systems...
Mass customization requires frequent product changeovers thus leading to the need of manufacturing s...
Multiple objective optimisation (MOO) is an optimisation approach that has been widely used to solve...
The process of multi-objective optimization involves finding optimal solutions to several objective ...
Multi-objective optimisation (MOOP) methods are used heavily to support decision-makers in addressin...
Managing maintenance in manufacturing within an economical short-termism framework and taking the co...
Adaptivity is essential for dynamically complex and uncertain systems. Adaptive policymaking is an a...
Supply chains are in general complex networks composed of autonomous entities whereby multiple perfo...
The Multi-Objective Parameter Optimisation (MOPO), (Joos 1992), is presently very often used in a co...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Industrial maintenance includes rich internaldynamic complexity on how to deliver value. While the t...
Simulation is a popular tool for the design and analysis of manufacturing systems. The popularity of...
In today’s global and volatile market, manufacturing enterprises are subjected to intense global com...
Merging systems, enhancing inter-disciplinary relations and increasing needs require multi objective...
Configuring and reconfiguring a manufacturing system is presented as an issue with increasing import...
Purpose: This paper aims to optimise the dynamic performance of production–inventory control systems...
Mass customization requires frequent product changeovers thus leading to the need of manufacturing s...
Multiple objective optimisation (MOO) is an optimisation approach that has been widely used to solve...
The process of multi-objective optimization involves finding optimal solutions to several objective ...
Multi-objective optimisation (MOOP) methods are used heavily to support decision-makers in addressin...
Managing maintenance in manufacturing within an economical short-termism framework and taking the co...
Adaptivity is essential for dynamically complex and uncertain systems. Adaptive policymaking is an a...
Supply chains are in general complex networks composed of autonomous entities whereby multiple perfo...
The Multi-Objective Parameter Optimisation (MOPO), (Joos 1992), is presently very often used in a co...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Industrial maintenance includes rich internaldynamic complexity on how to deliver value. While the t...
Simulation is a popular tool for the design and analysis of manufacturing systems. The popularity of...
In today’s global and volatile market, manufacturing enterprises are subjected to intense global com...
Merging systems, enhancing inter-disciplinary relations and increasing needs require multi objective...
Configuring and reconfiguring a manufacturing system is presented as an issue with increasing import...
Purpose: This paper aims to optimise the dynamic performance of production–inventory control systems...
Mass customization requires frequent product changeovers thus leading to the need of manufacturing s...