High-Level Scheduling of Energy Optimal Trajectories

Author

Wigström, Oskar ; Lennartson, Bengt ; Vergnano, Alberto ; Breitholtz, Claes

Author_Institution

Dept. of Signals & Syst., Chalmers Univ. of Technol. Goteborg, Goteborg, Sweden

Volume

10

Issue

1

fYear

2013

fDate

Jan. 2013

Firstpage

57

Lastpage

64

Abstract

The reduction of energy consumption is today addressed with great effort in manufacturing industry. In this paper, we improve upon a previously presented method for robotic system scheduling. By applying dynamic programming to existing trajectories, we generate new energy optimal trajectories that follow the same path but in a different execution time frame. With this new method, it is possible to solve the optimization problem for a range of execution times for the individual operations, based on one simulation only. The minimum energy trajectories can then be used to derive a globally energy optimal schedule. A case study of a cell comprised of four six-link manipulators is presented, in which energy optimal dynamic time scaling is compared to linear time scaling. The results show that a significant decrease in energy consumption can be achieved for any given cycle time.

Keywords

cellular manufacturing; dynamic programming; energy conservation; energy consumption; industrial manipulators; position control; scheduling; cell manufacturing; cycle time; dynamic programming; energy consumption reduction; energy optimal dynamic time scaling; energy optimal trajectory scheduling; high-level scheduling; linear time scaling; manufacturing industry; optimization problem; robotic system scheduling; six-link manipulator; Cost function; Energy consumption; Job shop scheduling; Optimal scheduling; Robots; Trajectory; Optimization methods; scheduling; trajectory;

fLanguage

English

Journal_Title

Automation Science and Engineering, IEEE Transactions on

Publisher

ieee

ISSN

1545-5955

Type

jour

DOI

10.1109/TASE.2012.2198816

Filename

6204092