This paper presents an innovative approach for the design and analysis of production systems using multi-objective optimization and data mining. The innovation lies on how these two methods using different computational intelligence algorithms can be synergistically integrated and used interactively by production systems designers to support their design decisions. Unlike ordinary optimization approaches for production systems design which several design objectives are linearly combined into a single mathematical function, multi-objective optimization that can generate multiple design alternatives and sort their performances into an efficient frontier can enable the designer to have a more complete picture about how the design decision vari...
This research aims to develop an integrated system for agroindustrial system design based on artific...
Advanced manufacturing such as aerospace, semi-conductor, and flat display device often involves com...
Often in modeling the engineering optimization design problems, the value of objective function(s) i...
This paper presents an innovative approach for the design and analysis of production systems using m...
AbstractThis paper presents an innovative approach for the design and analysis of production systems...
The process of multi-objective optimization involves finding optimal solutions to several objective ...
Real-world optimization problems typically involve multiple objectives to be optimized simultaneousl...
The integration of simulation-based optimization and data mining is an emerging approach to support ...
The first part of this paper served as a comprehensive survey of data mining methods that have been ...
Usually, optimizing productivity and optimizing worker well-being are separate tasks performed by en...
An optimal engineering design problem is challenging because nonlinear objective functions usually n...
The main objective of the work reported in this thesis has been to study and develop methodologies t...
peer reviewedGiven the increasingly volatile prices on the power markets, it becomes economically mo...
Real-life engineering optimization problems need Multiobjective Optimization (MOO) tools. These prob...
This research aims to develop an integrated system for agroindustrial system design based on artific...
Advanced manufacturing such as aerospace, semi-conductor, and flat display device often involves com...
Often in modeling the engineering optimization design problems, the value of objective function(s) i...
This paper presents an innovative approach for the design and analysis of production systems using m...
AbstractThis paper presents an innovative approach for the design and analysis of production systems...
The process of multi-objective optimization involves finding optimal solutions to several objective ...
Real-world optimization problems typically involve multiple objectives to be optimized simultaneousl...
The integration of simulation-based optimization and data mining is an emerging approach to support ...
The first part of this paper served as a comprehensive survey of data mining methods that have been ...
Usually, optimizing productivity and optimizing worker well-being are separate tasks performed by en...
An optimal engineering design problem is challenging because nonlinear objective functions usually n...
The main objective of the work reported in this thesis has been to study and develop methodologies t...
peer reviewedGiven the increasingly volatile prices on the power markets, it becomes economically mo...
Real-life engineering optimization problems need Multiobjective Optimization (MOO) tools. These prob...
This research aims to develop an integrated system for agroindustrial system design based on artific...
Advanced manufacturing such as aerospace, semi-conductor, and flat display device often involves com...
Often in modeling the engineering optimization design problems, the value of objective function(s) i...