Modeling, Simulation, and Control of Flexible Manufacturing Systems: A Petri Net ApproachWorld Scientific, 1999 - 409 ページ One critical barrier leading to successful implementation of flexible manufacturing and related automated systems is the ever-increasing complexity of their modeling, analysis, simulation, and control. Research and development over the last three decades has provided new theory and graphical tools based on Petri nets and related concepts for the design of such systems. The purpose of this book is to introduce a set of Petri-net-based tools and methods to address a variety of problems associated with the design and implementation of flexible manufacturing systems (FMSs), with several implementation examples.There are three ways this book will directly benefit readers. First, the book will allow engineers and managers who are responsible for the design and implementation of modern manufacturing systems to evaluate Petri nets for applications in their work. Second, it will provide sufficient breadth and depth to allow development of Petri-net-based industrial applications. Third, it will allow the basic Petri net material to be taught to industrial practitioners, students, and academic researchers much more efficiently. This will foster further research and applications of Petri nets in aiding the successful implementation of advanced manufacturing systems. |
目次
Introduction | 1 |
An Overview | 15 |
Petri Nets as Integrated Tool and Methodology in | 39 |
Fundamentals of Petri Nets | 59 |
Modeling FMS with Petri Nets | 91 |
FMS Performance Analysis | 147 |
Petri Net Simulation and Tools | 177 |
Performance Evaluation of Push and Pull Paradigms | 195 |
RealTime Petri Nets for Discrete Event Control | 241 |
Comparison of RealTime Petri Nets and Ladder Logic | 259 |
An ObjectOriented Design Methodology for Development | 303 |
Scheduling Using Petri Nets | 333 |
Petri Nets and Future Research | 365 |
377 | |
403 | |
AugmentedTimed Petri Nets for Modeling Breakdown | 223 |
多く使われている語句
algorithm analysis analyze application assembly system ATPN automated manufacturing systems basic elements behavior best-first search cell controller chapter complexity components concurrent control software conveyor deadlock delay developed discrete event discrete-event discussed enabled transitions example exponentially distributed Figure firing flexible manufacturing systems FMSS function heuristic IEEE implementation incidence matrix initial marking input places intersegment ladder logic diagrams loading loop machine machine cell marked graph methodology methods milling machine module nodes number of basic number of tokens object-oriented obtained OMT diagram operation optimal output arc p₁ pallets Petri net model pick-up piston places and transitions PLSS PN and LLD PN model presented problems programmable logic controller properties pull paradigm ready real-time represent resource robot RTPNs scheduling shown in Fig signal simulation solenoid station structure t₁ Table timer total number transfer table unloading Venkatesh workstation Zhou and DiCesare