A system-theoretic approach for discrete-event control of manufacturing systems

doi:https://doi.org/10.1017/cbo9780511662508.014

Book Chapter10.1017/cbo9780511662508.014

A system-theoretic approach for discrete-event control of manufacturing systems

Ayla Gürel,Octavian Păstrăvanu,Frank L. Lewis-1998-01-13-Cambridge University Press eBooks

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TL;DRAbstract

With advances in computer technology came the emergence of a new class of dynamic systems, examples of which include – but are not limited to – automated manufacturing systems, computer networks, communication systems, air traffic control systems, and office information systems. These, often manmade, complex systems are formed by interconnecting several subsystems with well understood dynamics. The interconnected system is then driven according to the asynchronous occurrences of discrete events resulting from the interactions between the subsystems. These systems are now commonly known as discrete event dynamic systems (DEDS) [3].

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With advances in computer technology came the emergence of a new class of dynamic systems, examples of which include – but are not limited to – automated manufacturing systems, computer networks, communication systems, air traffic control systems, and office information systems. These, often manmade, complex systems are formed by interconnecting several subsystems with well understood dynamics. The interconnected system is then driven according to the asynchronous occurrences of discrete events resulting from the interactions between the subsystems. These systems are now commonly known as discrete event dynamic systems (DEDS) [3].

Keywords

Discrete event dynamic systemAsynchronous communicationDistributed computingComputer scienceEvent (particle physics)Class (philosophy)Discrete event simulationControl system

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