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Digital
Library of the European Council for Modelling and Simulation |
Title: |
Towards A Multiparadigm Approach To Model Energy Management In WSN For
IoT Based Edge Computing Applications |
Authors: |
Lucilla De Arcangelis,
Mauro Iacono, Eugenio Lippiello |
Published in: |
2020). ECMS 2020 Proceedings
Edited by: Mike Steglich, Christian Muller, Gaby
Neumann, Mathias Walther, European Council for Modeling and Simulation. DOI: http://doi.org/10.7148/2020 ISSN:
2522-2422 (ONLINE) ISSN:
2522-2414 (PRINT) ISSN:
2522-2430 (CD-ROM) ISBN: 978-3-937436-68-5 Communications of the ECMS , Volume 34, Issue 1, June 2020, United Kingdom |
Citation
format: |
Lucilla De Arcangelis, Mauro Iacono, Eugenio Lippiello (2020).
Towards A Multiparadigm Approach To Model Energy
Management In WSN For IoT Based Edge Computing
Applications, ECMS 2020 Proceedings Edited
By: Mike Steglich, Christian Mueller, Gaby Neumann,
Mathias Walther European Council for Modeling and Simulation. doi: 10.7148/2020-0361 |
DOI: |
https://doi.org/10.7148/2020-0361 |
Abstract: |
Energy management in Wireless Sensor Networks (WSN) is a vastly analyzed, yet still open issue in the scientific literature. Managing energy is of paramount importance when sensors are battery-powered and dis-tributed in large, hardly (or expensively) accessible sites, such as a forest, for environmental or safety mon-itoring, or a stretch of sea, to counter contraband or drug traffic or other illegal activities, or dangerous sce-narios, such as extended fires or areas on which toxic or dangerous chemical agents are insisting as the re-sult of an incident or an attack. As an extended WSN presents a significant complexity in terms of the num-ber, type, heterogeneity and workload of nodes, com-munications, interactions with the environment and in-formation propagation and management. To deal with this issue, we present here a preliminary feasibility study for a parameterizable modeling framework aim-ing to investigate energy balancing and management in WSN. To cope with complexity and with the diversity of the problems to be analyzed in the small and in the global scale of a WSN system, and to provide a tool to evaluate and take into account the actual technological stacks available and arbitrary software workloads, we chose a customizable multiparadigm approach, that has been designed within the research agenda of VALERE research project ePassion. |
Full
text: |