In this paper, the tuning of multivariable PID(MPID) controller using particle swarm optimisation(PSO) is presented. To provide better performance in the industry, MPID implementation often uses heuristic approach, which is based on experience. However, this method of tuning is time consuming and inadequate for complex systems. To obtain a better performance in decoupling capabilities and closed loop performance, in this study, the MPID parameters are fine-tuned using Multi-objective PSO. Simulation results show tuning parameters of MPID controllers obtained via PSO yield better performance when applied to nonlinear system for different control strategies
Abstract — Though there are numerous tuning methods available for PID controller, most of the time t...
The use of DC motors is now common because of its advantages and has become an important necessity i...
ABSTRACT- PID controllers are widely used in industrial plants because the structure of PID controll...
In this paper, the tuning of multivariable PID (MPID) controller using particle swarm optimisation (...
In this paper, we propose a PID parameter tuning of particle swarm optimization for multi-objective ...
In PID controller design, an optimization algorithm is commonly employed to search for the optimal c...
AbstractIn PID controller design, an optimization algorithm is commonly employed to search for the o...
The aim of this research is to design a PID Controller using PSO algorithm. The model of a DC motor ...
This paper presents a design procedure of the PID controller where optimal parameters of controller ...
Despite the large number of existent design and tunig techniques, adequate PID controller tuning by ...
Abstract: It is necessary to change the parameters of PID controller if the parameters of plants cha...
Abstract — The aim of this paper is to study the tuning of a PID controller using swarm optimization...
This paper looked into optimal tuning of a Proportional-Integral-Derivative (PID) controller used in...
Abstract — Proportional-Integral-Derivative (PID) control is the most commonly used algorithm for in...
Abstract: In this paper, a novel design method for self-tuning PID controller of in mechanisms syste...
Abstract — Though there are numerous tuning methods available for PID controller, most of the time t...
The use of DC motors is now common because of its advantages and has become an important necessity i...
ABSTRACT- PID controllers are widely used in industrial plants because the structure of PID controll...
In this paper, the tuning of multivariable PID (MPID) controller using particle swarm optimisation (...
In this paper, we propose a PID parameter tuning of particle swarm optimization for multi-objective ...
In PID controller design, an optimization algorithm is commonly employed to search for the optimal c...
AbstractIn PID controller design, an optimization algorithm is commonly employed to search for the o...
The aim of this research is to design a PID Controller using PSO algorithm. The model of a DC motor ...
This paper presents a design procedure of the PID controller where optimal parameters of controller ...
Despite the large number of existent design and tunig techniques, adequate PID controller tuning by ...
Abstract: It is necessary to change the parameters of PID controller if the parameters of plants cha...
Abstract — The aim of this paper is to study the tuning of a PID controller using swarm optimization...
This paper looked into optimal tuning of a Proportional-Integral-Derivative (PID) controller used in...
Abstract — Proportional-Integral-Derivative (PID) control is the most commonly used algorithm for in...
Abstract: In this paper, a novel design method for self-tuning PID controller of in mechanisms syste...
Abstract — Though there are numerous tuning methods available for PID controller, most of the time t...
The use of DC motors is now common because of its advantages and has become an important necessity i...
ABSTRACT- PID controllers are widely used in industrial plants because the structure of PID controll...