Accurate trajectory tracking is a paramount objective when a mobile robot must perform complicated tasks. In high-speed movements, time delays appear when reaching the desired position and orientation, as well as overshoots in the changes of orientation, which prevent the execution of some tasks. One of the aspects that most influences the tracking performance is the control system of the actuators of the robot wheels. It usually implements PID controllers that, in the case of low-cost robots, do not yield a good tracking performance owing to friction nonlinearity, hardware time delay and saturation. We propose to overcome these problems by designing an advanced process control system composed of a PID controller plus a prefilter combined w...
This paper presents the design method a proportional integral derivative (PID) controller with time-...
A trajectory tracking controller is proposed to drive the wheeled mobile robot (WMR) to follow a pre...
International audienceA major problem in the design of control laws dedicated to mobile robots appea...
This research was funded by the Grant PID2019-111278RB-C21 funded by MCIN/AEI/ 10.13039/501100011033...
Autonomous mobile robot (AMR) without human operators has been required in different part of industr...
AbstractThe paper focuses on the optimization of the classical PID control technique for implementat...
International audienceIf the development of algorithms dedicated for path tracking control of mobile...
Robot becomes widely used in industrial due to their characteristics. Robot able to work in 24 hours...
This paper outlines the online performance of a control law based on PID (proportional-integral-deri...
In this paper a predictive controller for real-time target tracking in mobile robotics is proposed b...
Mobile robotic systems are increasingly prevalent in several fields of academia, industry, and every...
This paper presents a method to improve the path tracking accuracy of an industrial robot without re...
Servo actuators are integrated mechatronic drives for applications with high demands in dynamic resp...
A proportional-integral-derivative (PID) controller is a classical controller that has been applied ...
Trajectory tracking control is an important issue in the field of autonomous mobile robot. In high s...
This paper presents the design method a proportional integral derivative (PID) controller with time-...
A trajectory tracking controller is proposed to drive the wheeled mobile robot (WMR) to follow a pre...
International audienceA major problem in the design of control laws dedicated to mobile robots appea...
This research was funded by the Grant PID2019-111278RB-C21 funded by MCIN/AEI/ 10.13039/501100011033...
Autonomous mobile robot (AMR) without human operators has been required in different part of industr...
AbstractThe paper focuses on the optimization of the classical PID control technique for implementat...
International audienceIf the development of algorithms dedicated for path tracking control of mobile...
Robot becomes widely used in industrial due to their characteristics. Robot able to work in 24 hours...
This paper outlines the online performance of a control law based on PID (proportional-integral-deri...
In this paper a predictive controller for real-time target tracking in mobile robotics is proposed b...
Mobile robotic systems are increasingly prevalent in several fields of academia, industry, and every...
This paper presents a method to improve the path tracking accuracy of an industrial robot without re...
Servo actuators are integrated mechatronic drives for applications with high demands in dynamic resp...
A proportional-integral-derivative (PID) controller is a classical controller that has been applied ...
Trajectory tracking control is an important issue in the field of autonomous mobile robot. In high s...
This paper presents the design method a proportional integral derivative (PID) controller with time-...
A trajectory tracking controller is proposed to drive the wheeled mobile robot (WMR) to follow a pre...
International audienceA major problem in the design of control laws dedicated to mobile robots appea...