Overview

This text explains the concepts of supervisory control and discrete event systems, and the background material on general Petri net theory necessary for using the book's control techniques is provided. A large number of examples is used to illustrate the concepts and techniques presented in the text, and there are references for those interested in additional study or more information on a particular topic. The text is intended for graduate students, advanced undergraduates, and practicing engineers who are interested in the control problems of manufacturing, communication and computer networks, chemical process plants, and other high-level control applications. The text is written from an engineering perspective, but it is also appropriate for students of computer science, applied mathematics, or economics. The book contains enough background material to stand alone as an introduction to supervisory control with Petri nets, but it may also be used as a supplemental text in a course on discrete event systems or intelligent autonomous control.

Full Product Details

Author:   John O. Moody ,  Panos J. Antsaklis
Publisher:   Springer
Imprint:   Springer
Edition:   1998 ed.
Volume:   8
Dimensions:   Width: 15.50cm , Height: 1.20cm , Length: 23.50cm
Weight:   1.040kg
ISBN:  

9780792381990

ISBN 10:   0792381998
Pages:   187
Publication Date:   31 July 1998
Audience:   College/higher education ,  Professional and scholarly ,  General/trade ,  Undergraduate ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

1. Introduction.- 2. Petri Nets.- 2.1 Petri Net Definitions.- 2.2 Structural Invariants.- 2.3 Siphons and Traps.- 2.4 Classes of Petri Nets.- 2.5 Petri Nets and Automata.- 2.6 Petri Nets in Control.- 3. Invariant Based Control Design.- 3.1 Monitor Based Supervisors.- 3.2 Supervisor Synthesis using Place Invariants.- 3.3 Maximally Permissive Supervision.- 4. Uncontrollable and Unobservable Transitions.- 4.1 Uncontrollable Transitions.- 4.2 Unobservable Transitions.- 4.3 Constraint Transformations.- 4.4 Vector Discrete Event Systems.- 4.5 Petri Net Modeled Supervisors.- 5. Constraint Transformation and Controller Synthesis.- 5.1 Computing Constraint Transformations.- 5.2 Structure of Admissible Constraints and Controls.- 5.3 Admissible Constraints and Controller Synthesis.- 5.4 Enforcing Disjunctions of Linear Constraints.- 6. Resource Management and Deadlock Avoidance.- 6.1 Modeling of Finite Resources.- 6.2 Conditions for Liveness.- 6.3 Deadlock Avoidance.- 7. Other Control Specifications.- 7.1 Equality Constraints.- 7.2 Constraints involving the Firing Vector.- 7.3 Logical Constraints on System Behavior.- 7.4 Constraints Involving Time.- 7.5 Limits of the Constraint Inequality.- 8. Example Applications.- 8.1 The Cat and Mouse Problem.- 8.2 Automated Guided Vehicle Coordination.- 8.3 The Unreliable Machine.- 8.4 Piston Rod Robotic Assembly Cell.- 8.5 Asynchronous Transfer Mode Switch.- 8.6 The Three Tanks Problem.- 8.7 Hybrid Control System Example.- 9. Summary and Conclusions.- References.- List of Symbols.- About the Authors.

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