Add to ORKGThis paper explains simulation works carried out to evaluate the performance of proportional-integral-derivative-based (PID-based) controls in controlling the electro-mechanical friction clutch (EMFC) for engagement and disengagement. The EMFC model is developed in Matlab/Simulink comprising DC motor s model and power screw mechanism s model. Four controls; proportional-integral (PI), proportional-integral-derivative (PID), proportional (P) and proportional derivative (PD), are applied on the model using 6 mm as the set point for the power screw s position. Among them, PD control performs the best with 0% overshoot, 0.041 mm steady state error and about 1.3 seconds settling time. Next, the PD control is updated with a conditional integral c...
This study proposes a gain-scheduled controller with direct tuning for the position control of a pne...
In this study, an integral augmented sliding mode control (SMC + I) has been proposed to improve con...
An Automated Manual Transmission (AMT) is directly derived from a manual one through the integration...
The main contribution of control technology in automotive powertrain system is that, i...
This paper describes a controller development for an electro-mechanical friction clutch (EMFC) syste...
This report investigates proportional-derivative (PD) controller and different versions of sliding m...
This paper is focus on the design, modeling and implementation of a proportional-derivative controll...
This paper deals with a robust strategy for controlling a hydraulically actuated active suspension s...
Electro-Mechanical Dual Acting Pulley (EMDAP) Continuously Variable Transmission (CVT) is a transmis...
Modelling of DYNAST simulator to controlling speed in a DC motor using proportional integral derivat...
This research present about a steering control system on a vehicle whicgh is called Electrical Power...
Based on a discrete-time second order state-space dynamic model of the powertrain system, a piecewis...
Due to the uncertainties caused by high non-linearity, friction, leakage and other external factors ...
The purpose of this article is to obtain a mathematical model of a single joint system mostly found ...
The purpose of this article is to obtain a mathematical model of a single joint system mostly found ...
This study proposes a gain-scheduled controller with direct tuning for the position control of a pne...
In this study, an integral augmented sliding mode control (SMC + I) has been proposed to improve con...
An Automated Manual Transmission (AMT) is directly derived from a manual one through the integration...
The main contribution of control technology in automotive powertrain system is that, i...
This paper describes a controller development for an electro-mechanical friction clutch (EMFC) syste...
This report investigates proportional-derivative (PD) controller and different versions of sliding m...
This paper is focus on the design, modeling and implementation of a proportional-derivative controll...
This paper deals with a robust strategy for controlling a hydraulically actuated active suspension s...
Electro-Mechanical Dual Acting Pulley (EMDAP) Continuously Variable Transmission (CVT) is a transmis...
Modelling of DYNAST simulator to controlling speed in a DC motor using proportional integral derivat...
This research present about a steering control system on a vehicle whicgh is called Electrical Power...
Based on a discrete-time second order state-space dynamic model of the powertrain system, a piecewis...
Due to the uncertainties caused by high non-linearity, friction, leakage and other external factors ...
The purpose of this article is to obtain a mathematical model of a single joint system mostly found ...
The purpose of this article is to obtain a mathematical model of a single joint system mostly found ...
This study proposes a gain-scheduled controller with direct tuning for the position control of a pne...
In this study, an integral augmented sliding mode control (SMC + I) has been proposed to improve con...
An Automated Manual Transmission (AMT) is directly derived from a manual one through the integration...