Parallel linkage steering for an automated guided vehicle

Author

Sung, Eric ; Loon, Ng Kok ; Yin, Yee Chiang

Author_Institution

Nanyang Technol. Inst., Singapore

Volume

9

Issue

6

fYear

1989

Firstpage

3

Lastpage

8

Abstract

The computer-aided design of suitable control strategies for parallel linkage steering of an experimental automated guided vehicle is described. The microprocessor-based steering control system is modeled, and stability characteristics using proportional control are investigated by means of describing functions. Although the approximation is coarse, the analysis indicates an upper bound for gain and suggests derivative action for improved control. For better accuracy, a flexible and fast simulation program that makes possible an efficient search for optimal control laws for operation of the vehicle under the constant speed mode and slow-down mode is developed. Time-independent control laws are investigated, and solutions are found that give tolerable tracking over 90 degrees arcs of 0.5 m radius. The simulation results show that time-dependent control laws are essential for improved, nonoscillatory tracking.<>

Keywords

automatic guided vehicles; control system CAD; optimal control; position control; proportional control; stability; AGV; automated guided vehicle; computer-aided design; constant speed mode; control strategy CAD; describing functions; microprocessor-based steering control system; nonoscillatory tracking; optimal control laws; parallel linkage steering; proportional control; slow-down mode; stability characteristics; time-dependent control laws; time-independent control; upper bound; Automatic control; Control systems; Couplings; Light emitting diodes; Proportional control; Servomotors; Stability; Upper bound; Vehicles; Wheels;

fLanguage

English

Journal_Title

Control Systems Magazine, IEEE

Publisher

ieee

ISSN

0272-1708

Type

jour

DOI

10.1109/37.41436

Filename

41436