The present article describes the improvement of Self-regulation Nonlinear PID (SN-PID) controller. A new function is introduced to improve the system performance in terms of transient without affecting the steady state performance. It is used to optimize the nonlinear function available on this controller. The signal error is reprocessed through this function, and the result is used to tune the nonlinear function of the controller. Furthermore, the presence of the dead zone on the proportional valve is solved using Dead Zone Compensator (DZC). Simulations and experiments were carried out on the pneumatic positioning system. Comparisons between the existing methods were examined and successfully demonstrated
The wide application of pneumatic actuator in electrical and electronics sectors are undeniable henc...
In this paper, a nonlinear mathematical modeling based on fundamental physical derivation is present...
In this paper, a combination of nonlinear gain and proportional integral derivative (NPID) controlle...
The present article describes the improvement of Self-regulation Nonlinear PID (SN-PID) controller. ...
The enhancement of nonlinear PID (N-PID) controller for a pneumatic positioning system is proposed t...
The enhancement of nonlinear PID (N-PID) controller for a pneumatic positioning system is proposed t...
This paper presents the pneumatic positioning system controlled by Enhanced Nonlinear PID (NPID) con...
This paper investigates the robustness of the pneumatic positioning system controlled by Self-regula...
This paper investigates the robustness of the pneumatic positioning system controlled by Self-regula...
The present article describes the improvement of Self-regulation Nonlinear PID (SN-PID) controller. ...
Pneumatic actuators offer several advantages such as low cost, simple to maintain, high power to wei...
This paper investigates several control strategies that potential to perform well in regulating and ...
In this paper, a combination of nonlinear gain and proportional integral derivative (NPID) controlle...
This paper presents an enhancement of nonlinear proportional-integral-derivative (PID) controller fo...
In this paper, a nonlinear mathematical modeling based on fundamental physical derivation is present...
The wide application of pneumatic actuator in electrical and electronics sectors are undeniable henc...
In this paper, a nonlinear mathematical modeling based on fundamental physical derivation is present...
In this paper, a combination of nonlinear gain and proportional integral derivative (NPID) controlle...
The present article describes the improvement of Self-regulation Nonlinear PID (SN-PID) controller. ...
The enhancement of nonlinear PID (N-PID) controller for a pneumatic positioning system is proposed t...
The enhancement of nonlinear PID (N-PID) controller for a pneumatic positioning system is proposed t...
This paper presents the pneumatic positioning system controlled by Enhanced Nonlinear PID (NPID) con...
This paper investigates the robustness of the pneumatic positioning system controlled by Self-regula...
This paper investigates the robustness of the pneumatic positioning system controlled by Self-regula...
The present article describes the improvement of Self-regulation Nonlinear PID (SN-PID) controller. ...
Pneumatic actuators offer several advantages such as low cost, simple to maintain, high power to wei...
This paper investigates several control strategies that potential to perform well in regulating and ...
In this paper, a combination of nonlinear gain and proportional integral derivative (NPID) controlle...
This paper presents an enhancement of nonlinear proportional-integral-derivative (PID) controller fo...
In this paper, a nonlinear mathematical modeling based on fundamental physical derivation is present...
The wide application of pneumatic actuator in electrical and electronics sectors are undeniable henc...
In this paper, a nonlinear mathematical modeling based on fundamental physical derivation is present...
In this paper, a combination of nonlinear gain and proportional integral derivative (NPID) controlle...