Publication
ICWS 2023
Conference paper

Adaptive Service Placement for Multi-Access Edge Computing: A Formal Methods Approach

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Abstract

Multi-Access Edge Computing (MEC) is increasingly growing in prominence as the de facto enabler for ultra-low latency access to services. MEC averts the high network latencies often encountered in accessing cloud services by deploying application instances on edge servers situated near Internet-of-Things (IoT) device users. Workloads generated by IoT devices can then either be executed locally on the devices or offloaded to the MEC servers. A key cornerstone of the MEC environment is a service placement policy that determines the deployment of services on MEC servers. A service placement policy plays a critical role towards determining the trade-offs involved between latency experienced by users as a function of the resource contention and the resulting energy consumption. In this context, we propose a static-dynamic service placement policy for MEC. The static policy is geared towards placement of services in a prioritised order by leveraging Probabilistic Model Checking, a Formal Methods technique, to ensure probabilistic guarantees on the trade-offs between latencies and energy consumption of edge sites. The dynamic policy alters the static service allocation to cater to runtime variability in latency requirements. We present experimental results on a real-world service usage dataset to show the benefits of our approach over conventional approaches.

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Publication

ICWS 2023

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