Abstract
SummaryTopics relevant to modeling and control of mobile wheeled robots with a differential drive are discussed by assuming a motion that is planar and free from lateral and longitudinal slippages, and by taking into account dynamic and kinematic properties of the vehicle. Based on the concept of geometric path-tracking, a controller is designed that is a memoryless function of the lateral, heading, and velocity path-tracking offsets. If these offsets are kept small and the assigned tracking velocity is constant, then this controller may be given a linear, time-invariant and decoupled PID (Proportional + integral + derivative) structure.
Publisher
Cambridge University Press (CUP)
Subject
Computer Science Applications,General Mathematics,Software,Control and Systems Engineering
Reference32 articles.
1. A Novel PID Configuration for Speed and Position Control
2. Motion Control Analysis of a Mobile Robot
3. 13. Kanayama Y. , Kimura Y. , Miyazaki F. and Noguchi T. , “A Stable Tracking Control Method for an Autonomous Mobile Robot” IEEE International Conference on Robotics and Automation, Cincinnati, Ohio (1990) pp. 384–389.
4. On the steering of automated vehicles: Theory and experiment
5. Synthesis of an optimal control law for path tracking in mobile robots
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