Authors:
Amel Benna
1
;
Fatma Masmoudi
2
;
Mohamed Sellami
3
;
Zakaria Maamar
4
and
Rachid Hadjidj
5
Affiliations:
1
CERIST, Algiers, Algeria
;
2
Prince Sattam Bin Abdulaziz University, Alkharj, K.S.A.
;
3
Samovar, Télécom SudParis, Institut Polytechnique de Paris, France
;
4
Zayed University, Dubai, U.A.E.
;
5
Department of Computer Science, ABMMC, Doha, Qatar
Keyword(s):
Composition, Consumption, Petri Net, Resource.
Abstract:
ICT community cornerstones (IoT in particular) gain competitive advantage from using physical resources. This paper adopts Time Petri-Nets (TPNs) to model and analyze the consumption cycles of composite resources. These resources consist of primitive, and even other composite, resources that are associated with consumption properties and could be subject to disruptions. These properties are specialized into unlimited, shareable, limited, limited-but-renewable, and non-shareable, and could impact the availability of resources. This impact becomes a concern when disruptions suspend ongoing consumption cycles to make room for the unplanned consumptions. Resuming the suspended consumption cycles depends on the resources’ consumption properties. To ensure correct modeling and analysis of consumption cycles, whether disrupted or not, TPNs are adopted to verify that composite resources are reachable, bound, fair, and live.