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AuthorAzmy, Sherif B.
AuthorZorba, Nizar
AuthorHassanein, Hossam S.
Available date2024-07-14T07:57:21Z
Publication Date2023
Publication NameIEEE International Conference on Communications
ResourceScopus
Identifierhttp://dx.doi.org/10.1109/ICC45041.2023.10278906
ISSN15503607
URIhttp://hdl.handle.net/10576/56606
AbstractThe demand for cloud services is expected to exceed the capacity of the centralized cloud. This rise compelled service providers to decentralize the cloud by physically pushing service provision to the proximity of the end-users, which led to the synthesis of solutions such as Fog and Edge computing. Edge Computing seeks to deploy services in the last mile to the end-user, however there is still opportunity on the edge beyond the last mile: the user's own devices. Extreme Edge Computing (EEC) is an edge sub-paradigm that seeks to tap into the idle computational power on non-enterprise user-owned devices. In this work, we navigate some of the challenges posed by EEC that constrain the usage of resources on user-owned devices. We evaluate an orchestrator-based extreme edge system, that oversees user-owned worker devices, and it provides resources in exchange for an incentive payment. We propose the Incentive-Vacation Queueing (IVQ) model to investigate the performance of user-owned worker devices under a vacation policy that is influenced by incentives. We derive closed-form expressions for the system performance that capture the epistemic uncertainty stemming from unexpected user behavior, to show the impact of each parameter in the system performance, and to optimize it. The IVQ model provides insight into the impact of introducing incentives on the workers' performance.
SponsorACKNOWLEDGMENT This research is supported by a grant from the Natural Sciences and Engineering Research Council of Canada (NSERC) under grant number ALLRP 549919-20.
Languageen
PublisherInstitute of Electrical and Electronics Engineers Inc.
SubjectExtreme Edge Computing
Incentive
Performance Analysis
Queueing
Vacation
TitleIncentive-Vacation Queueing for Extreme Edge Computing Systems
TypeConference
Pagination94-99
Volume Number2023-May
dc.accessType Abstract Only


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