Towards Energy-aware Cyber-Physical Systems Verification and Optimization

Reza Soltani; Eun-Young Kang; Juan Esteban Heredia Mena

doi:10.15439/2021F125

Towards Energy-aware Cyber-Physical Systems Verification and Optimization

Reza Soltani^*, Eun-Young Kang, Juan Esteban Heredia Mena

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

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Abstract

Optimizing CPS behavior in terms of energy consumption can have a significant impact on system reliability. The environment influences the system’s behavior, and neglecting the environmental behavior has an indirect negative impact on optimizing the system’s behavior. In this work, to increase the system’s flexibility, the behavior of the environment is modeled dynamically to apply the disorderliness of its behavior. The resulting models are formally verified. By examining the past environmental behavior and predicting its future behavior, energy optimization is done more dynamically. The verification results acquired using a UPPAAL-SMC show that the optimization of system behavior by predicting the environmental behavior has been successful. Our approach is demonstrated using a case study within an I4 setting.

Original language	English
Title of host publication	Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems
Volume	26
Publisher	Polish Information Processing Society
Publication date	2021
Pages	205-210
ISBN (Electronic)	978-83-959183-9-1
DOIs	https://doi.org/10.15439/2021F125
Publication status	Published - 2021
Event	16th Conference on Computer Science and Intelligence Systems, FedCSIS 2021 - Virtual, Sofia, Bulgaria Duration: 2. Sept 2021 → 5. Sept 2021

Conference

Conference	16th Conference on Computer Science and Intelligence Systems, FedCSIS 2021
Country/Territory	Bulgaria
City	Virtual, Sofia
Period	02/09/2021 → 05/09/2021

Series	Annals of Computer Science and Information Systems
Volume	26
ISSN	2300-5963

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Soltani, Reza ; Kang, Eun-Young ; Heredia Mena, Juan Esteban. / Towards Energy-aware Cyber-Physical Systems Verification and Optimization. Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems. Vol. 26 Polish Information Processing Society, 2021. pp. 205-210 (Annals of Computer Science and Information Systems, Vol. 26).

@inproceedings{9538f8d7b54b4884bbf350b5c927f458,

title = "Towards Energy-aware Cyber-Physical Systems Verification and Optimization",

abstract = "Optimizing CPS behavior in terms of energy consumption can have a significant impact on system reliability. The environment influences the system{\textquoteright}s behavior, and neglecting the environmental behavior has an indirect negative impact on optimizing the system{\textquoteright}s behavior. In this work, to increase the system{\textquoteright}s flexibility, the behavior of the environment is modeled dynamically to apply the disorderliness of its behavior. The resulting models are formally verified. By examining the past environmental behavior and predicting its future behavior, energy optimization is done more dynamically. The verification results acquired using a UPPAAL-SMC show that the optimization of system behavior by predicting the environmental behavior has been successful. Our approach is demonstrated using a case study within an I4 setting.",

author = "Reza Soltani and Eun-Young Kang and {Heredia Mena}, {Juan Esteban}",

year = "2021",

doi = "10.15439/2021F125",

language = "English",

volume = "26",

series = "Annals of Computer Science and Information Systems",

pages = "205--210",

booktitle = "Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems",

publisher = "Polish Information Processing Society",

note = "16th Conference on Computer Science and Intelligence Systems, FedCSIS 2021 ; Conference date: 02-09-2021 Through 05-09-2021",

}

Soltani, R, Kang, E-Y & Heredia Mena, JE 2021, Towards Energy-aware Cyber-Physical Systems Verification and Optimization. in Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems. vol. 26, Polish Information Processing Society, Annals of Computer Science and Information Systems, vol. 26, pp. 205-210, 16th Conference on Computer Science and Intelligence Systems, FedCSIS 2021, Virtual, Sofia, Bulgaria, 02/09/2021. https://doi.org/10.15439/2021F125

Towards Energy-aware Cyber-Physical Systems Verification and Optimization. / Soltani, Reza; Kang, Eun-Young ; Heredia Mena, Juan Esteban.
Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems. Vol. 26 Polish Information Processing Society, 2021. p. 205-210 (Annals of Computer Science and Information Systems, Vol. 26).

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

TY - GEN

T1 - Towards Energy-aware Cyber-Physical Systems Verification and Optimization

AU - Soltani, Reza

AU - Kang, Eun-Young

AU - Heredia Mena, Juan Esteban

PY - 2021

Y1 - 2021

N2 - Optimizing CPS behavior in terms of energy consumption can have a significant impact on system reliability. The environment influences the system’s behavior, and neglecting the environmental behavior has an indirect negative impact on optimizing the system’s behavior. In this work, to increase the system’s flexibility, the behavior of the environment is modeled dynamically to apply the disorderliness of its behavior. The resulting models are formally verified. By examining the past environmental behavior and predicting its future behavior, energy optimization is done more dynamically. The verification results acquired using a UPPAAL-SMC show that the optimization of system behavior by predicting the environmental behavior has been successful. Our approach is demonstrated using a case study within an I4 setting.

AB - Optimizing CPS behavior in terms of energy consumption can have a significant impact on system reliability. The environment influences the system’s behavior, and neglecting the environmental behavior has an indirect negative impact on optimizing the system’s behavior. In this work, to increase the system’s flexibility, the behavior of the environment is modeled dynamically to apply the disorderliness of its behavior. The resulting models are formally verified. By examining the past environmental behavior and predicting its future behavior, energy optimization is done more dynamically. The verification results acquired using a UPPAAL-SMC show that the optimization of system behavior by predicting the environmental behavior has been successful. Our approach is demonstrated using a case study within an I4 setting.

U2 - 10.15439/2021F125

DO - 10.15439/2021F125

M3 - Article in proceedings

VL - 26

T3 - Annals of Computer Science and Information Systems

SP - 205

EP - 210

BT - Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems

PB - Polish Information Processing Society

T2 - 16th Conference on Computer Science and Intelligence Systems, FedCSIS 2021

Y2 - 2 September 2021 through 5 September 2021

ER -

Soltani R, Kang EY , Heredia Mena JE. Towards Energy-aware Cyber-Physical Systems Verification and Optimization. In Position and Communication Papers of the 16th Conference on Computer Science and Intelligence Systems. Vol. 26. Polish Information Processing Society. 2021. p. 205-210. (Annals of Computer Science and Information Systems, Vol. 26). doi: 10.15439/2021F125

Towards Energy-aware Cyber-Physical Systems Verification and Optimization

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