Your search keyword '"Liwen Guan"' showing total 5 results

1. Kinematics and inverse dynamics analysis for a novel 3-PUU parallel mechanism.

Author

Wang Liping, Xu Huayang, and Liwen Guan

Published

2017

2. Dynamic dexterity of a planar 2-DOF parallel manipulator in a hybrid machine tool.

Author

Jun Wu 0016, Jinsong Wang, Tiemin Li, Liping Wang 0001, and Liwen Guan

Published

2008

3. Dynamic dexterity of a planar 2-DOF parallel manipulator in a hybrid machine tool

Author

Liwen Guan, Jinsong Wang, Tiemin Li, Liping Wang, and Jun Wu

Subjects

Inertial frame of reference, Computer science, General Mathematics, Isotropy, Parallel manipulator, Workspace, Standard deviation, Computer Science Applications, Computer Science::Robotics, Sylvester's law of inertia, Control and Systems Engineering, Control theory, Virtual work, Condition number, Software

Abstract

SUMMARYThis paper addresses the dynamic dexterity of a planar 2-degree of freedom (DOF) parallel manipulator with virtual constraint. Without simplification, the dynamic formulation is derived by using the virtual work principle. The condition number of the inertia matrix of the dynamic equation is presented as a criterion to evaluate the dynamic dexterity of a manipulator. In order to obtain the best isotropic configuration of the dynamic dexterity in the whole workspace, two global performance indices, which consider the mean value and standard deviation of the condition number of the inertia matrix, respectively, are proposed as the objective function. For a given set of geometrical and inertial parameters, the dynamic dexterity of the parallel manipulator is more isotropic in the center than at the boundaries of the workspace.

Published

2008

4. Kinematics and inverse dynamics analysis for a novel 3-PUU parallel mechanism

Author

Liping, Wang, primary, Huayang, Xu, additional, and Liwen, Guan, additional

Published

2016

5. Kinematics and inverse dynamics analysis for a novel 3-PUU parallel mechanism.

Author

Liping, Wang, Huayang, Xu, and Liwen, Guan

Subjects

VIRTUAL work, DYNAMICS, DEGREES of freedom, MATRIX inversion, GEOMETRIC modeling

Abstract

The modules of parallel tool heads with 2R1T degrees of freedom (DOFs), i.e., two rotational DOFs and one translational DOF, have become so important in the field of machine tools that corresponding research studies have attracted extensive attention from both academia and industry. A 3-PUU (P represents a prismatic joint, U represents a universal joint) parallel mechanism with 2R1T DOFs is proposed in this paper, and a detailed discussion about its architecture, geometrical constraints, and mobility characteristics is presented. Furthermore, on the basis of its special geometrical constraint, we derive and explicitly express the parasitic motion of the 3-PUU mechanism. Then, the inverse kinematics problem, the Jacobian matrix calculation and the forward kinematics problem are also investigated. Finally, with a simplified dynamics model, the inverse dynamics analysis for the mechanism is carried out with the Principle of Virtual Work, and corresponding results are compared with that of the 3-PRS mechanism. The above analyses illustrate that the 3-PUU parallel mechanism has good dynamics features, which validates the feasibility of applying this mechanism as a tool head module. [ABSTRACT FROM PUBLISHER]

Published

2017