It has been proven that the properties of non-linearity, multi-disturbance, and time-variation are the main factors affecting the performance of the electromechanical actuator (EMA) for guided artillery rockets. In particular, its controller should have good dynamic characteristics and strong anti-disturbance features when the projectile is maneuvered at the end of its guidance. For these reasons, an active disturbance rejection controller (ADRC) was designed for a guided artillery rocket’s EMA with a ball screw drive. Compared to other control methods, it has been shown that the ADRC had a stronger disturbance rejection ability than PID, Fuzzy-PID, and BP-PID under the condition of 20% maximum control torque disturbance, and it also ...
This paper presents a summary of the recent developments in practical applications of the activedist...
The feasibility of a systematic and effective control design for highly uncertain dynamic systems is...
This paper presents a high-precision control scheme based on active disturbance rejection control (A...
An active disturbance rejection control (ADRC) strategy is developed for extending the travel range ...
An overview of the active disturbance rejection control (ADRC) is presented in this talk. Ever since...
Active disturbance rejection control (ADRC) is an emerging robust control technology. It improves th...
The intriguing history of disturbance cancellation control is reviewed in this thesis first, which d...
A new digital control solution to motion control problems is proposed. It is based on a unique activ...
In response to the influence of motor interference, damping, friction, and other uncertain factors o...
This paper proposes a new control strategy to the position control of the ball in the ball and beam ...
This paper introduces a new control method namely ADRC (Active Disturbance Rejection Control), espec...
Electromechanical simulators, actuators are widely used in miscellaneous applications in engineering...
At present, most of the magnetic bearing system adopts the classical proportional-integral-derivativ...
Abstract In this paper, a robust feedback controller is developed on an electrostatic micromechanica...
A new control method is presented to drive the drive axis of a MEMS gyroscope to resonance and regul...
This paper presents a summary of the recent developments in practical applications of the activedist...
The feasibility of a systematic and effective control design for highly uncertain dynamic systems is...
This paper presents a high-precision control scheme based on active disturbance rejection control (A...
An active disturbance rejection control (ADRC) strategy is developed for extending the travel range ...
An overview of the active disturbance rejection control (ADRC) is presented in this talk. Ever since...
Active disturbance rejection control (ADRC) is an emerging robust control technology. It improves th...
The intriguing history of disturbance cancellation control is reviewed in this thesis first, which d...
A new digital control solution to motion control problems is proposed. It is based on a unique activ...
In response to the influence of motor interference, damping, friction, and other uncertain factors o...
This paper proposes a new control strategy to the position control of the ball in the ball and beam ...
This paper introduces a new control method namely ADRC (Active Disturbance Rejection Control), espec...
Electromechanical simulators, actuators are widely used in miscellaneous applications in engineering...
At present, most of the magnetic bearing system adopts the classical proportional-integral-derivativ...
Abstract In this paper, a robust feedback controller is developed on an electrostatic micromechanica...
A new control method is presented to drive the drive axis of a MEMS gyroscope to resonance and regul...
This paper presents a summary of the recent developments in practical applications of the activedist...
The feasibility of a systematic and effective control design for highly uncertain dynamic systems is...
This paper presents a high-precision control scheme based on active disturbance rejection control (A...