Add to ORKGAbstract:- This paper proposes a novel adaptive genetic algorithm (AGA) for the multi-objective optimization design of a fractional PID controller and applies it to the control of an active magnetic bearing (AMB) system. Different from PID controllers with three constants, the fractional PID controller’s parameters are composed of proportional constant, integral constant, derivative constant, derivative order and integral order. The fractional PID controller is more flexible and gives the possibility of adjusting more carefully the closed-loop system characteristics. However, its design becomes more complex than that of conventional integer order PID controller. An adaptive genetic algorithm is proposed to design the fractional PID controll...
Mechatronic systems are conventionally modeled by integer order state equations for simplicity. Base...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
The PhD thesis describes control design of active magnetic bearing. Active magnetic bearing is nonli...
The active magnetic bearing (AMB) using permanent magnet and electromagnet offers the advantage of h...
One of the key issues in control design for Active Magnetic Bearing (AMB) systems is the tradeoff be...
Active Magnetic Bearings (AMBs) are broadly utilized for high angular speed machines such as turbo-m...
The main focus of this paper is on system identification of an active magnetic bearing system (AMB) ...
This paper presents the new algorithms of fractional order PID control based on genetic algorithms i...
Abstract — PID controller is a well known controller which is used in most control applications. Aro...
The paper considers three issues in flexible rotor and magnetic bearing systems, namely the control ...
In this paper rotor position of the BLDC motor controlled using PID controller. The Proportional gai...
A non-linear model of a Rolls-Royce turbo machine's rotor supported by active magnetic bearings (AMB...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
In comparison to the traditional solutions, active bearings offer great operating flexibility, ensur...
A non-linear model of a Rolls-Royce turbo machine's rotor supported by active magnetic bearings (AMB...
Mechatronic systems are conventionally modeled by integer order state equations for simplicity. Base...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
The PhD thesis describes control design of active magnetic bearing. Active magnetic bearing is nonli...
The active magnetic bearing (AMB) using permanent magnet and electromagnet offers the advantage of h...
One of the key issues in control design for Active Magnetic Bearing (AMB) systems is the tradeoff be...
Active Magnetic Bearings (AMBs) are broadly utilized for high angular speed machines such as turbo-m...
The main focus of this paper is on system identification of an active magnetic bearing system (AMB) ...
This paper presents the new algorithms of fractional order PID control based on genetic algorithms i...
Abstract — PID controller is a well known controller which is used in most control applications. Aro...
The paper considers three issues in flexible rotor and magnetic bearing systems, namely the control ...
In this paper rotor position of the BLDC motor controlled using PID controller. The Proportional gai...
A non-linear model of a Rolls-Royce turbo machine's rotor supported by active magnetic bearings (AMB...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
In comparison to the traditional solutions, active bearings offer great operating flexibility, ensur...
A non-linear model of a Rolls-Royce turbo machine's rotor supported by active magnetic bearings (AMB...
Mechatronic systems are conventionally modeled by integer order state equations for simplicity. Base...
In this paper, two methods to tune a fractional-order PI (lambda) D (mu) controller for a mechatroni...
The PhD thesis describes control design of active magnetic bearing. Active magnetic bearing is nonli...