A Polynomial Deadlock Avoidance Method for a Class of Nonsequential Resource Allocation Systems

Author

Ezpeleta, Joaquín ; Valk, Rüdiger

Author_Institution

Dept. of Comput. Sci., Zaragoza Univ.

Volume

36

Issue

6

fYear

2006

Firstpage

1234

Lastpage

1243

Abstract

This correspondence introduces a deadlock-avoidance algorithm for a class of manufacturing systems with the following characteristics: 1) Production orders are allowed to have assembly operations (which give the nonsequential nature to the resource allocation system model) but not disassembly operations, 2) the use of system resources must be conservative (resources are neither created nor destroyed), and 3) actions related to the granting of resources are controllable. The proposed solution represents a sufficient condition for a given system state to be safe and is based on an adaptation of the well-known Banker´s approach for deadlock avoidance. The time complexity of the proposed solution is proved to be polynomial with the size of the Place/Transition net model

Keywords

assembling; computational complexity; manufacturing systems; resource allocation; Petri nets; deadlock-avoidance algorithm; manufacturing systems; nonsequential resource allocation systems; polynomial deadlock avoidance method; time complexity; Assembly systems; Manufacturing systems; Petri nets; Polynomials; Production systems; Resource management; Runtime; Sufficient conditions; Supervisory control; System recovery; Assembly systems; Banker´s algorithm; Place/Transition nets (Petri nets); deadlock avoidance; resource allocation system (RAS);

fLanguage

English

Journal_Title

Systems, Man and Cybernetics, Part A: Systems and Humans, IEEE Transactions on

Publisher

ieee

ISSN

1083-4427

Type

jour

DOI

10.1109/TSMCA.2006.878963

Filename

1715493