Petri net modeling of a flexible assembly station for printed circuit boards
Document Type
Conference Proceeding
Publication Date
1-1-1991
Abstract
Petri net modeling approaches are presented for a flexible workstation for automatic assembly of printed circuit boards. In order to improve the productivity of such a system, the building of mathematical models is a crucial step. Concentrating on the operational aspects, the authors construct ordinary and temporal Petri net models for the AT&T FWS-200 physical flexible workstation. Three outcomes follow from such models. First, designers can have a better understanding of concurrency, synchronization, mutual exclusion, and sequential relations involved in the system control from the graphical representations of Petri nets. Second, the performance analysis of system operations under different settings can be conducted. Thus, the results can be used to help designers choose the best operational setting on basis of the system parameters. Third, the models can be used as an aid for automatic generation of real-time control programs and construction of Petri-net-based simulation if needed. The approaches suggested can be generalized to many other applications of multirobot assembly systems.
Identifier
0025902933 (Scopus)
Publication Title
Proceedings IEEE International Conference on Robotics and Automation
ISSN
10504729
First Page
2530
Last Page
2535
Volume
3
Recommended Citation
Zhou, Meng Chu and Leu, Ming C., "Petri net modeling of a flexible assembly station for printed circuit boards" (1991). Faculty Publications. 17598.
https://digitalcommons.njit.edu/fac_pubs/17598
