Coloured Petri Nets (CPN) is a graphical language for modelling and validating concurrent and distributed systems, and other systems in which concurrency plays a major role. The development of such systems is particularly challenging because of inherent intricacies like possible nondeterminism and the immense number of possible execution sequences.
In this textbook Jensen and Kristensen introduce the constructs of the CPN modelling language and present the related analysis methods in detail. They also provide a comprehensive road map for the practical use of CPN by showcasing selected industrial case studies that illustrate the practical use of CPN modelling and validation for design, specification, simulation, verification and implementation in various application domains.
Their presentation primarily aims at readers interested in the practical use of CPN. Thus all concepts and constructs are first informally introduced through examples and then followed by formal definitions (which may be skipped). The book is ideally suitable for a one-semester course at an advanced undergraduate or graduate level, and through its strong application examples can also serve for self-study. An accompanying website offers additional material such as slides, exercises and project proposals.
Book website: http://www.cs.au.dk/CPnets/cpnbook/
Publisher: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Number of pages: 384
Weight: 1620 g
Dimensions: 235 x 155 x 22 mm
Edition: 2009 ed.
From the reviews:"A colored Petri net (CPN) is a concurrent and typed enhancement of a state machine. This book is a comprehensive treatise on CPNs. ... The book is well edited ... . structure and presentation are very well conceived: it can be read as a tutorial for CPNs, as an advanced guide for CPTools, or as a reference for CPN formalism." (A. Squassabia, ACM Computing Reviews, August, 2010)
You may also be interested in...
Would you like to proceed to the App store to download the Waterstones App?
Or, add to basket, pay online, collect in as little as 2 hours, subject to availability.