Dynamics based trajectory planning for parallel manipulators

Author

Lou, Yunjiang ; Feng, Fang ; Li, Zhibin

Author_Institution

Div. of Control & Mechatron. Eng., Harbin Inst. of Technol., Shenzhen, China

fYear

2009

fDate

22-24 June 2009

Firstpage

295

Lastpage

300

Abstract

Kinematics based trajectory planning for parallel manipulators has been studied extensively, e.g., to determine a singularity-free path. Dynamics based trajectory planning, however, gains little concern. In order to fully exploit capacity of parallel robots, it is inevitable to conduct motion planning considering both kinematic and dynamic constraints. In this paper, three dynamics based trajectory planning methods, the time-optimal, the jerk-bounded, and the cubic polynomial planning, are investigated and implemented. The Orthopod, a 3-DoF purely translational parallel manipulator, is used as the experimental plant. This study provides a quantitative comparison of the three planning methods. The experimental results provide a guideline to choose an appropriate planning method for practical industrial applications.

Keywords

manipulator dynamics; manipulators; path planning; Orthopod; cubic polynomial planning; dynamic constraints; dynamics based trajectory planning; jerk-bounded planning; kinematic constraints; motion planning; parallel manipulators; singularity-free path; time-optimal planning; Acceleration; Actuators; Kinematics; Manipulator dynamics; Mechatronics; Motion planning; Path planning; Polynomials; Power system planning; Trajectory; dynamics-based; parallel manipulators; time-optimal; trajectory planning;

fLanguage

English

Publisher

ieee

Conference_Titel

Information and Automation, 2009. ICIA '09. International Conference on

Conference_Location

Zhuhai, Macau

Print_ISBN

978-1-4244-3607-1

Electronic_ISBN

978-1-4244-3608-8

Type

conf

DOI

10.1109/ICINFA.2009.5204938

Filename

5204938