Theory of regions

The Theory of regions is an approach for synthesizing a Petri net from a transition system. As such, it aims at recovering concurrent, independent behavior from transitions between global states. Theory of regions handles elementary net systems as well as P/T nets and other kinds of nets. An important point is that the approach is aimed at the synthesis of unlabeled Petri nets only.

Definition[edit]

A region of a transition system $(S,\Lambda ,\rightarrow )$ is a mapping assigning to each state $s\in S$ a number $\sigma (s)$ (natural number for P/T nets, binary for ENS) and to each transition label a number $\tau (\ell )$ such that consistency conditions $\sigma (s')=\sigma (s)+\tau (\ell )$ holds whenever $(s,\ell ,s')\in \rightarrow$ .^[1]

Intuitive explanation[edit]

Each region represents a potential place of a Petri net.

Mukund: event/state separation property, state separation property.^[2]

References[edit]

^ "Madhavan Mukund".
^ Mukund, Madhavan (1992-12-01). "Petri nets and step transition systems". International Journal of Foundations of Computer Science. 03 (4): 443–478. doi:10.1142/S0129054192000231. ISSN 0129-0541.

Badouel, Eric; Darondeau, Philippe (1998), Reisig, Wolfgang; Rozenberg, Grzegorz (eds.), "Theory of regions", Lectures on Petri Nets I: Basic Models: Advances in Petri Nets, Lecture Notes in Computer Science, Berlin, Heidelberg: Springer, pp. 529–586, doi:10.1007/3-540-65306-6_22, ISBN 978-3-540-49442-3

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[mukund-1] "Madhavan Mukund".

[2] Mukund, Madhavan (1992-12-01). "Petri nets and step transition systems". International Journal of Foundations of Computer Science. 03 (4): 443–478. doi:10.1142/S0129054192000231. ISSN 0129-0541.

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