A two-dimensional parametric model for the study of the nonlinear dynamic response of cable-driven parallel manipulators is presented in this work. The model considers the distributed dynamical properties a generic number n of cables undergoing time-varying length. The cable equations of motion are obtained via a lagrangian formulation and the equations providing the connectivity between the end-effector and the cables are derived analytically; finally, the balance of the linear and angular momentum of the end-effector is enforced. The partial differential equations of motion of the system are reduced to a set of ordinary differential equations through a discretization procedure based on admissible trial functions, so as to couple the latter equations with the equations of motion of the end-effector. Finally. the direct dynamic problem is formulated and solved numerically for a selected case-study manipulator.
Parametric Dynamic Modeling of Cable-Driven Parallel Manipulators / Arena, A.; Ottaviano, E.; Gattulli, V.. - 399:(2024), pp. 351-361. (Intervento presentato al convegno 3rd International Symposium on Dynamics and Aerodynamics of Cables, ISDAC 2023 tenutosi a Rome) [10.1007/978-3-031-47152-0_30].
Parametric Dynamic Modeling of Cable-Driven Parallel Manipulators
Arena A.
Primo
Conceptualization
;Ottaviano E.Membro del Collaboration Group
;Gattulli V.Funding Acquisition
2024
Abstract
A two-dimensional parametric model for the study of the nonlinear dynamic response of cable-driven parallel manipulators is presented in this work. The model considers the distributed dynamical properties a generic number n of cables undergoing time-varying length. The cable equations of motion are obtained via a lagrangian formulation and the equations providing the connectivity between the end-effector and the cables are derived analytically; finally, the balance of the linear and angular momentum of the end-effector is enforced. The partial differential equations of motion of the system are reduced to a set of ordinary differential equations through a discretization procedure based on admissible trial functions, so as to couple the latter equations with the equations of motion of the end-effector. Finally. the direct dynamic problem is formulated and solved numerically for a selected case-study manipulator.| File | Dimensione | Formato | |
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