Add to ORKGThis paper presents the design of a Fuzzy Logic Controller (FLC) whose parameters are optimized by using Genetic Algorithm (GA) and Bacteria Foraging Optimization (BFO) for tip position control of a single link flexible manipulator. The proposed FLC is designed by minimizing the fitness function, which is defined as a function of tip position error, through GA and BFO optimization algorithms achieving perfect tip position tracking of the single link flexible manipulator. Then the tip position responses obtained by using both the above controllers are compared to suggest the best controller for the tip position tracking
This paper provides an overview on evolutionary learning methods for the automated design and optimi...
This paper describes a genetic-fuzzy system in which a genetic algorithm (GA) is used to improve the...
This paper describes a genetic-fuzzy system in which a genetic algorithm (GA) is used to improve the...
This paper presents the design of a Fuzzy Logic Controller (FLC) whose parameters are optimized by u...
Controlling multi-link flexible robots is very difficult compared rigid ones due to inter-link coupl...
Controlling multi-link flexible robots is very difficult compared rigid ones due to inter-link coupl...
Flexible manipulator systems exhibit many advantages over their traditional (rigid) counterparts. Ho...
Flexible manipulator systems exhibit many advantages over their traditional (rigid) counterparts. Ho...
In this study, a fuzzy logic controller (FLC) was designed to manipulate an articulated robot grippe...
This thesis describes the use of the genetic algorithm to facilitate the design process of a fuzzy l...
application/pdfBehavior of a combination of a fuzzy logic controller (FLC) and genetic algorithms (G...
AbstractThis paper presents a learning method which automatically designs fuzzy logic controllers (F...
This paper gives the structure optimization of fuzzy control systems based on genetic algorithm in t...
application/pdfBehavior of a combination of a fuzzy logic controller (FLC) and genetic algorithms (G...
In this paper, we present optimal control for movement and trajectory planning for four degrees-of-f...
This paper provides an overview on evolutionary learning methods for the automated design and optimi...
This paper describes a genetic-fuzzy system in which a genetic algorithm (GA) is used to improve the...
This paper describes a genetic-fuzzy system in which a genetic algorithm (GA) is used to improve the...
This paper presents the design of a Fuzzy Logic Controller (FLC) whose parameters are optimized by u...
Controlling multi-link flexible robots is very difficult compared rigid ones due to inter-link coupl...
Controlling multi-link flexible robots is very difficult compared rigid ones due to inter-link coupl...
Flexible manipulator systems exhibit many advantages over their traditional (rigid) counterparts. Ho...
Flexible manipulator systems exhibit many advantages over their traditional (rigid) counterparts. Ho...
In this study, a fuzzy logic controller (FLC) was designed to manipulate an articulated robot grippe...
This thesis describes the use of the genetic algorithm to facilitate the design process of a fuzzy l...
application/pdfBehavior of a combination of a fuzzy logic controller (FLC) and genetic algorithms (G...
AbstractThis paper presents a learning method which automatically designs fuzzy logic controllers (F...
This paper gives the structure optimization of fuzzy control systems based on genetic algorithm in t...
application/pdfBehavior of a combination of a fuzzy logic controller (FLC) and genetic algorithms (G...
In this paper, we present optimal control for movement and trajectory planning for four degrees-of-f...
This paper provides an overview on evolutionary learning methods for the automated design and optimi...
This paper describes a genetic-fuzzy system in which a genetic algorithm (GA) is used to improve the...
This paper describes a genetic-fuzzy system in which a genetic algorithm (GA) is used to improve the...