In this paper, we propose a hybrid intelligent parameter estimator for the active force control (AFC) scheme which utilizes evolutionary computation (EC) and artificial neural networks (ANN) to control a rigid robot arm. The EC part of the algorithm composes of a hybrid genetic algorithm (GA) and an evolutionary program (EP). The development of the controller is divided into two stages. In the first stage, which is performed off-line, the proposed EC algorithm is employed to evolve a pool of ANN structures until they converge to an optimum structure. The population is divided into different groups according to their fitness. The elitist group will not undergo any operation, while the second group, i.e. stronger group, undergoes the EP opera...
The paper investigates the development of intelligent hybrid collocated and non-collocated PID contr...
Existing approaches for learning to control a robot arm rely on supervised methods where correct beh...
Autonomous and semiautonomous robots are certain to play a major role in several areas in the future...
This paper presents a new intelligent controller algorithm comprising an on-line multi-layer artific...
The main requirement of an active force control (AFC) applied to a dynamical system is the estimatio...
In this paper, the structural genetic algorithm is used to optimize the neural network to control th...
Robot arm control is a dicult problem. Fuzzy controllers have been applied succesfully to this contr...
Humanoids are increasingly used in the service sectors around the world to work with, or assist huma...
Robotic is one of the key technologies towards Industrial Revolution 4.0. Robotic system, especially...
Abstract. The paper describes the development of a software in the form of an interactive computer p...
This thesis describes the use of a Real-Time Evolutionary Algorithm (RTEA) to optimise an Artificial...
The objective of this study was to solve the robot dynamic hybrid control problem using intelligent...
The application of quadratic optimization and sliding-mode approach is considered for hybrid positio...
Abstract — In this paper, an Evolutionary Optimized Neural Network (EONN) based control scheme is pr...
Industrial robots have a great impact on increasing the productivity and reducing the time of the ma...
The paper investigates the development of intelligent hybrid collocated and non-collocated PID contr...
Existing approaches for learning to control a robot arm rely on supervised methods where correct beh...
Autonomous and semiautonomous robots are certain to play a major role in several areas in the future...
This paper presents a new intelligent controller algorithm comprising an on-line multi-layer artific...
The main requirement of an active force control (AFC) applied to a dynamical system is the estimatio...
In this paper, the structural genetic algorithm is used to optimize the neural network to control th...
Robot arm control is a dicult problem. Fuzzy controllers have been applied succesfully to this contr...
Humanoids are increasingly used in the service sectors around the world to work with, or assist huma...
Robotic is one of the key technologies towards Industrial Revolution 4.0. Robotic system, especially...
Abstract. The paper describes the development of a software in the form of an interactive computer p...
This thesis describes the use of a Real-Time Evolutionary Algorithm (RTEA) to optimise an Artificial...
The objective of this study was to solve the robot dynamic hybrid control problem using intelligent...
The application of quadratic optimization and sliding-mode approach is considered for hybrid positio...
Abstract — In this paper, an Evolutionary Optimized Neural Network (EONN) based control scheme is pr...
Industrial robots have a great impact on increasing the productivity and reducing the time of the ma...
The paper investigates the development of intelligent hybrid collocated and non-collocated PID contr...
Existing approaches for learning to control a robot arm rely on supervised methods where correct beh...
Autonomous and semiautonomous robots are certain to play a major role in several areas in the future...