Title :
A Graphical Approach to Input-Shaping Control Design for Container Cranes With Hoist
Author :
Masoud, Ziyad N. ; Daqaq, Mohammed F.
Author_Institution :
Dept. of Mech. Eng., Hashemite Univ., Zarka
Abstract :
A traditional input-shaping technique is adapted to control transfer maneuvers on quay-side container cranes. The controller is developed using an accurate two-dimensional four-bar-mechanism model of a container crane and accounts for maneuvers that involve large hoisting operations. A graphical representation of the phase plane of the payload oscillations is used to derive mathematical constraints to compute the switching times of a double-step acceleration profile that results in minimal transient and residual oscillations. In contrast with single-step shaped acceleration profiles which are very sensitive to frequency approximations, the proposed double-step profile is less sensitive to small variations in the frequency even for large trolley accelerations
Keywords :
control nonlinearities; cranes; graph theory; hoists; motion control; nonlinear control systems; double-step acceleration profile; graphical representation; hoists; input-shaping control design; mathematical constraints; minimal transient oscillations; payload oscillation phase plane; quay-side container cranes; residual oscillations; switching times; transfer maneuver control; two-dimensional four-bar mechanism model; Acceleration; Cables; Containers; Control design; Cranes; Frequency domain analysis; Mechanical engineering; Payloads; Safety; Vibrations; Container crane; crane control; input-shaping;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2006.883194
