Feedback controls are usually designed to achieve multiple and often conflicting performance goals. These incommensurable objectives can be found in both time and frequency domains. For instance, one may want to design a control system such that the closed-loop system response to a step input has a minimum percentage overshoot , peak time, rise time, settling time, tracking error, and control effort. Another designer may want the controlled system to have a maximum crossover frequency, maximum phase margin and minimum steady-state error . However, Most of these objectives cannot be achieved concurrently. Therefore, trade-offs have to be made when the design objective space includes two or more conflicting objectives. These compromise soluti...
Purpose: This paper aims to investigate different multi-objective optimization (MOO) approaches for ...
This paper describes the use of multiobjective genetic algorithms (MOGAs) in the design of a multiva...
Most control engineering problems are characterized by several, often contradicting, objectives, whi...
This paper presents a multi-objective optimal design of a cascade control system for an underactuate...
This paper introduces the simple cell mapping (SCM) method for the multi-objective optimal time doma...
International audienceA novel design method for PID controller with optimal parameters is proposed b...
© 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
AbstractIt is generally difficult to design feedback controls of nonlinear systems with time delay t...
This paper describes the use of multiobjective genetic algorithms (MOGAs) in the design of a multiva...
This paper presents three novel methods for the multi-objective design of controllers with tunable p...
A multi-stage design approach that uses a multiobjective genetic algorithm as the framework for opti...
This paper describes the use of a multi-objective genetic algorithm for robust motion controller des...
[Abstract] A control system problem can be viewed as a multiobjective problem due to the fact that t...
The problem of designing control chart is formulated as a multi-objective optimization problem with ...
The purpose of this research is to examine true multiobjective control/structure pareto optimization...
Purpose: This paper aims to investigate different multi-objective optimization (MOO) approaches for ...
This paper describes the use of multiobjective genetic algorithms (MOGAs) in the design of a multiva...
Most control engineering problems are characterized by several, often contradicting, objectives, whi...
This paper presents a multi-objective optimal design of a cascade control system for an underactuate...
This paper introduces the simple cell mapping (SCM) method for the multi-objective optimal time doma...
International audienceA novel design method for PID controller with optimal parameters is proposed b...
© 2013 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
AbstractIt is generally difficult to design feedback controls of nonlinear systems with time delay t...
This paper describes the use of multiobjective genetic algorithms (MOGAs) in the design of a multiva...
This paper presents three novel methods for the multi-objective design of controllers with tunable p...
A multi-stage design approach that uses a multiobjective genetic algorithm as the framework for opti...
This paper describes the use of a multi-objective genetic algorithm for robust motion controller des...
[Abstract] A control system problem can be viewed as a multiobjective problem due to the fact that t...
The problem of designing control chart is formulated as a multi-objective optimization problem with ...
The purpose of this research is to examine true multiobjective control/structure pareto optimization...
Purpose: This paper aims to investigate different multi-objective optimization (MOO) approaches for ...
This paper describes the use of multiobjective genetic algorithms (MOGAs) in the design of a multiva...
Most control engineering problems are characterized by several, often contradicting, objectives, whi...