1,383 research outputs found
Trajectory tracking and time delay management of 4-mecanum wheeled mobile robots (4-MWMR)
International audienceNowadays, wheeled mobile robots have a very important role in industrial applications, namely in transportation tasks thanks to their accuracy and rapidity. However, meeting obstacles while executing a mission can cause an important time delay, which is not appreciable in industry where production must be optimal. This paper deals with the time delay management, the trajectory generation and the tracking problem applied on four wheeled omnidirectional mobile robots. A strategy is proposed to minimize or compensate the time delay caused by obstacles. The approach is done by updating the reference trajectory. This update helps to track the trajectory in real time, a new control law based on the feedback linearization control theory is synthesized to track perfectly generated or updated trajectories
Optimal PID Control of a Brushed DC Motor with an Embedded Low-Cost Magnetic Quadrature Encoder for Improved Step Overshoot and Undershoot Responses in a Mobile Robot Application
The development of a proportional–integral–derivative (PID) control system is a simple,
practical, highly effective method used to control the angular rotational velocity of electric motors.
This paper describes the optimization of the PID control of a brushed DC motor (BDCM) with an
embedded low-cost magnetic quadrature encoder. This paper demonstrates empirically that the
feedback provided by low-cost magnetic encoders produces some inaccuracies and control artifacts
that are not usually considered in simulations, proposing a practical optimization approach in order
to improve the step overshoot and undershoot controller response. This optimization approach is
responsible for the motion performances of a human-sized omnidirectional mobile robot using three
motorized omnidirectional wheels
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