This chapter presents a performance-prioritized computer aided control system design (CACSD) methodology using a multi-objective evolutionary algorithm. The evolutionary CACSD approach unifies different control laws in both the time and frequency domains based upon performance satisfactions, without the need of aggregating different design criteria into a compromise function. It is shown that control engineers' expertise as well as settings on goal or priority for different preference on each performance requirement can be easily included and modified on-line according to the evolving trade-offs, which makes the controller design interactive, transparent and simple for real-time implementation. Advantages of the evolutionary CACSD methodolo...
Challenging optimisation problems, which elude acceptable solution via conventional methods, arise r...
Feedback controls are usually designed to achieve multiple and often conflicting performance goals. ...
This thesis is devoted toMultiobjective Optimization Design (MOOD) procedures for controller tuning...
This chapter presents a performance-prioritized computer aided control system design (CACSD) methodo...
This paper develops an evolutionary algorithm (EA) based methodology for computer-aided control syst...
This paper develops an evolutionary algorithm (EA) based methodology for computer-aided control syst...
This paper attempts to set a unified scene for various linear time-invariant (LTI) control system de...
Control System Design methods are presented in terms of optimization techniques that incorporate Mu...
The aim of this work is to explore the potential and to enhance the capability of evolutionary compu...
This paper attempts to revolutionise control system design by unifying all linear time invariant (LT...
This paper develops a genetic algorithm based design automation method for linear control systems. I...
This paper develops a uniform definition of control system design problems using a vector space. Des...
© 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper represents a multivariable controller design methodology which is based on the solution o...
This paper addresses the issue of transforming CACSD to `computer-automated control system design', ...
Challenging optimisation problems, which elude acceptable solution via conventional methods, arise r...
Feedback controls are usually designed to achieve multiple and often conflicting performance goals. ...
This thesis is devoted toMultiobjective Optimization Design (MOOD) procedures for controller tuning...
This chapter presents a performance-prioritized computer aided control system design (CACSD) methodo...
This paper develops an evolutionary algorithm (EA) based methodology for computer-aided control syst...
This paper develops an evolutionary algorithm (EA) based methodology for computer-aided control syst...
This paper attempts to set a unified scene for various linear time-invariant (LTI) control system de...
Control System Design methods are presented in terms of optimization techniques that incorporate Mu...
The aim of this work is to explore the potential and to enhance the capability of evolutionary compu...
This paper attempts to revolutionise control system design by unifying all linear time invariant (LT...
This paper develops a genetic algorithm based design automation method for linear control systems. I...
This paper develops a uniform definition of control system design problems using a vector space. Des...
© 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper represents a multivariable controller design methodology which is based on the solution o...
This paper addresses the issue of transforming CACSD to `computer-automated control system design', ...
Challenging optimisation problems, which elude acceptable solution via conventional methods, arise r...
Feedback controls are usually designed to achieve multiple and often conflicting performance goals. ...
This thesis is devoted toMultiobjective Optimization Design (MOOD) procedures for controller tuning...