Dynamic modelling of a flexible cylindrical manipulator

The dynamics of flexible space manipulators carrying out relatively fast maneuvers is considered. In the past, computer simulations of the dynamics of flexible space manipulators executing large movements sometimes lacked accuracy, especially during fast maneuvers. This deficiency can be attributed

In this paper, the equations of motion for a non-linearly constrained flexible manipulator with a tip mass are derived by using Hamilton's principle. Dynamic formulation is based on expressing the kinetic and potential energies of the manipulator system in terms of generalized co-ordinates. Four dyn

This paper presents a performance evaluation and the computational requirements of using the ®nite element (FE) method for modelling ¯exible robot manipulators. A constrained planar single-link ¯exible manipulator is considered. Finite-dimensional simulation of the manipulator is developed using the

This paper presents a comprehensive dynamic modeling of a flexible link manipulator by using Hamilton's principle. The model is formulated by considering the flexible arm as a Timoshenko beam model. Hence, the shear, bending as well as rotational inertia effect of the manipulator are all taken into