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Design of an Algebraic Neural Operating System in Programmable Logical Controller for Simulation and Execution of Sequential Operations

p. 3-22

Abstract

This paper deals with a general method for the analysis and the logical generation of discrete systems in Programmable Logical Controller (PLC). The Boolean operators are implemented with a generic and unique algebraic model as event-dependent discrete equations, which can be executed in a sequential order. With this method, a generator of sequential logical tables can be designed, simulated and executed for implementing discrete dynamical systems. Two applications are studied. The first application deals with the industrial automation of a water supply for a factory. From the logical table of the events, an algebraic model is designed with a set of discrete equations. From these digital equations, a neural network of the water supply is built. The second application deals with an industrial travelling wagon.

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References

Bibliographical reference

Daniel M. Dubois and Antonio Mascia, « Design of an Algebraic Neural Operating System in Programmable Logical Controller for Simulation and Execution of Sequential Operations », CASYS, 25 | 2010, 3-22.

Electronic reference

Daniel M. Dubois and Antonio Mascia, « Design of an Algebraic Neural Operating System in Programmable Logical Controller for Simulation and Execution of Sequential Operations », CASYS [Online], 25 | 2010, Online since 11 September 2024, connection on 27 December 2024. URL : http://popups.uliege.be/3041-539x/index.php?id=3154

Authors

Daniel M. Dubois

HEC Management School, N1, University of Liege, rue Louvrex 14, B-4000 Liege, Belgium, and CHAOS ASBL, Institute of Mathematics, B37, Grande Traverse 12, B-4000 Liege, Belgium

By this author

Antonio Mascia

Euro View Services SA, Chaussée de Lodelinsart 273, B-6060 Gilly, Belgium, and ABEX expert

Copyright

CC BY-SA 4.0 Deed