Modelling and control of overhead cranes with flexible variable-length cable by finite element method

Kamal A.F. Moustafa; Emil H. Gad; Ahmed M.A. El-Moneer; Mohamed I.S. Ismail

doi:10.1191/0142331205tm135oa

Modelling and control of overhead cranes with flexible variable-length cable by finite element method

Kamal A.F. Moustafa, Emil H. Gad, Ahmed M.A. El-Moneer, Mohamed I.S. Ismail

Department of Mechanical and Aerospace Engineering

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

This work considers the modelling problem of the dynamics of overhead cranes with flexible cable and load hoisting or lowering during crane travel. The analysis includes the transverse vibrations of the flexible cable and trolley motion. A set of nonlinear ordinary differential equations governing the motion of the crane system with time-varying spatial domain is derived via the calculus of variation and Hamilton's principle. A variable-domain finite element method is used to discretize the nonlinear system. A proportional -derivative controller is suggested to drive the crane to a desired destination. Numerical simulations are provided to show the effectiveness of the developed model and to illustrate the results.

Original language	English
Pages (from-to)	1-20
Number of pages	20
Journal	Transactions of the Institute of Measurement & Control
Volume	27
Issue number	1
DOIs	https://doi.org/10.1191/0142331205tm135oa
Publication status	Published - Mar 2005

Keywords

control
finite element
flexible cable
modelling
overhead cranes
variable-length cable

ASJC Scopus subject areas

Instrumentation

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10.1191/0142331205tm135oa

Cite this

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abstract = "This work considers the modelling problem of the dynamics of overhead cranes with flexible cable and load hoisting or lowering during crane travel. The analysis includes the transverse vibrations of the flexible cable and trolley motion. A set of nonlinear ordinary differential equations governing the motion of the crane system with time-varying spatial domain is derived via the calculus of variation and Hamilton's principle. A variable-domain finite element method is used to discretize the nonlinear system. A proportional -derivative controller is suggested to drive the crane to a desired destination. Numerical simulations are provided to show the effectiveness of the developed model and to illustrate the results.",

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AU - Moustafa, Kamal A.F.

AU - Gad, Emil H.

AU - El-Moneer, Ahmed M.A.

AU - Ismail, Mohamed I.S.

PY - 2005/3

Y1 - 2005/3

N2 - This work considers the modelling problem of the dynamics of overhead cranes with flexible cable and load hoisting or lowering during crane travel. The analysis includes the transverse vibrations of the flexible cable and trolley motion. A set of nonlinear ordinary differential equations governing the motion of the crane system with time-varying spatial domain is derived via the calculus of variation and Hamilton's principle. A variable-domain finite element method is used to discretize the nonlinear system. A proportional -derivative controller is suggested to drive the crane to a desired destination. Numerical simulations are provided to show the effectiveness of the developed model and to illustrate the results.

AB - This work considers the modelling problem of the dynamics of overhead cranes with flexible cable and load hoisting or lowering during crane travel. The analysis includes the transverse vibrations of the flexible cable and trolley motion. A set of nonlinear ordinary differential equations governing the motion of the crane system with time-varying spatial domain is derived via the calculus of variation and Hamilton's principle. A variable-domain finite element method is used to discretize the nonlinear system. A proportional -derivative controller is suggested to drive the crane to a desired destination. Numerical simulations are provided to show the effectiveness of the developed model and to illustrate the results.

KW - control

KW - finite element

KW - flexible cable

KW - modelling

KW - overhead cranes

KW - variable-length cable

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Modelling and control of overhead cranes with flexible variable-length cable by finite element method

Abstract

Keywords

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