Title :
Point-to-point control of a gantry crane: A combined flatness and IDA-PBC strategy
Author :
Kazi, Faruk ; Banavar, Ravi ; Ortega, Romeo ; Manjarekar, N.S.
Author_Institution :
Syst. & Control Eng., IIT Bombay, Mumbai, India
Abstract :
A prevalent approach to control in the gantry crane industry is to track a trajectory using an open-loop strategy based on notions of differential flatness. Point-to-point control is achieved by selecting a suitable trajectory to be followed. To cope with disturbances and uncertainties, a nominal feedback controller is added to the loop. We have approached the objective of point-to-point transfer with swing suppression along the trajectory by combining notions of flatness and the IDA-PBC technique. The applications like handling liquid filled container demand such kind of quasistatic trajectories. Initially, a flatness based control law is used to follow a desired trajectory that transfers the system to a neighbourhood of the final state. Then the IDA-PBC control law is switched on for robust stabilization of the system.
Keywords :
cranes; feedback; open loop systems; robust control; uncertain systems; IDA-PBC strategy; IDA-PBC technique; differential flatness; disturbances; flatness based control law; gantry crane industry; liquid filled container handling; nominal feedback controller; open-loop strategy; point-to-point control; point-to-point transfer; prevalent approach; quasistatic trajectories; robust stabilization; swing suppression; trajectory tracking; uncertainties; Cranes; Payloads; Potential energy; Pulleys; Trajectory; Winches; Flatness; IDA-PBC; cable-operated robot; holonomic constraints;
Conference_Titel :
Control Conference (ECC), 2007 European
Conference_Location :
Kos
Print_ISBN :
978-3-9524173-8-6
