In this paper, fractional order (FO) operators and adaptive passivity-based controllers (APBC) are combined. The main aim is to explore possible advantages of combining FO operators and APBC over the use of integer order APBC. The proposed technique is experimentally applied to the level regulation of a conical tank. For comparison purposes, integer order (classical) Proportional Integer (PI) controller and FO-PI controller are also experimentally applied and studied. Results showed that the design of FO-PI controller is simpler than classical PI controller design, since it uses a single set of parameters for the whole operational range of the plant; whereas three different set of parameters were adjusted for the classical PI controller. Th...
The interest in fractional-order (FO) control can be traced back to the late nineteenth century. The...
The presence of disturbances in practical control engineering applications is unavoidable. At the sa...
In the industry, many plants are described by higher order systems. Most of the time, higher order s...
The techniques of Taylor polynomial approximation (TPA) and adaptive passivity-based controller (APB...
A simulation study of fractional order PID (FOPID) applied to level control in a conic tank is prese...
Abstract — Based on our previously developed tuning procedure for fractional order proportional inte...
In this paper, a fractional order proportional integral controller (FOPI) and Fractional order[Propo...
This work designs a fractional order controller (FOC) for the level control problem of the coupled t...
Fractional-order PID (FOPID) controller is a generalization of standard PID controller using fractio...
In model based control, performance of the controlled plant considerably depends on the accuracy of ...
This paper presents a brief review of Fractional Order Proportional, Integral and Derivative (FOPID)...
This paper presents a new tuning method for fractional-order (FO)PID controllers to simplify current...
Fractional order PID controller has two degrees of freedom more than the integer order PID controlle...
Abstract: The application of fractional controller attracts more attention in the recent years. In t...
A novel conformal mapping based fractional order (FO) methodology is developed in this paper for tun...
The interest in fractional-order (FO) control can be traced back to the late nineteenth century. The...
The presence of disturbances in practical control engineering applications is unavoidable. At the sa...
In the industry, many plants are described by higher order systems. Most of the time, higher order s...
The techniques of Taylor polynomial approximation (TPA) and adaptive passivity-based controller (APB...
A simulation study of fractional order PID (FOPID) applied to level control in a conic tank is prese...
Abstract — Based on our previously developed tuning procedure for fractional order proportional inte...
In this paper, a fractional order proportional integral controller (FOPI) and Fractional order[Propo...
This work designs a fractional order controller (FOC) for the level control problem of the coupled t...
Fractional-order PID (FOPID) controller is a generalization of standard PID controller using fractio...
In model based control, performance of the controlled plant considerably depends on the accuracy of ...
This paper presents a brief review of Fractional Order Proportional, Integral and Derivative (FOPID)...
This paper presents a new tuning method for fractional-order (FO)PID controllers to simplify current...
Fractional order PID controller has two degrees of freedom more than the integer order PID controlle...
Abstract: The application of fractional controller attracts more attention in the recent years. In t...
A novel conformal mapping based fractional order (FO) methodology is developed in this paper for tun...
The interest in fractional-order (FO) control can be traced back to the late nineteenth century. The...
The presence of disturbances in practical control engineering applications is unavoidable. At the sa...
In the industry, many plants are described by higher order systems. Most of the time, higher order s...