Modelling cooperating failure-resilient Processes

TL;DR

This paper introduces an extension to regular cycloids, a class of Petri nets, to model failure-resilient cooperating processes, enhancing their ability to represent resilient interactions in complex systems.

Contribution

It proposes a novel extension of regular cycloids to incorporate failure resilience, advancing the modeling capabilities of Petri nets for cooperative processes.

Findings

Extended cycloids can model failure resilience in cooperating processes

The approach enhances the robustness of process modeling

Provides a theoretical foundation for resilient system design

Abstract

Cycloids are particular Petri nets for modelling processes of actions or events. They belong to the fundaments of Petri's general systems theory and have very different interpretations, ranging from Einstein's relativity theory and elementary information processing gates to the modelling of interacting sequential processes. The subclass of regular cycloids describes cooperating sequential processes. Such cycloids are extended to cover failure resilience.