Visible to the public A Distributed Trust Layer for Edge Infrastructure

TitleA Distributed Trust Layer for Edge Infrastructure
Publication TypeConference Paper
Year of Publication2021
AuthorsLe, Van Thanh, El Ioini, Nabil, Pahl, Claus, Barzegar, Hamid R., Ardagna, Claudio
Conference Name2021 Sixth International Conference on Fog and Mobile Edge Computing (FMEC)
Date Publisheddec
Keywordsblockchain, cloud computing, composability, Computational modeling, Containers, Industries, Logic gates, Measurement, MEC, Multi-access Edge Computing, pubcrawl, security, Soft sensors, Trust, trustworthiness
AbstractRecently, Mobile Edge Cloud computing (MEC) has attracted attention both from academia and industry. The idea of moving a part of cloud resources closer to users and data sources can bring many advantages in terms of speed, data traffic, security and context-aware services. The MEC infrastructure does not only host and serves applications next to the end-users, but services can be dynamically migrated and reallocated as mobile users move in order to guarantee latency and performance constraints. This specific requirement calls for the involvement and collaboration of multiple MEC providers, which raises a major issue related to trustworthiness. Two main challenges need to be addressed: i) trustworthiness needs to be handled in a manner that does not affect latency or performance, ii) trustworthiness is considered in different dimensions - not only security metrics but also performance and quality metrics in general. In this paper, we propose a trust layer for public MEC infrastructure that handles establishing and updating trust relations among all MEC entities, making the interaction withing a MEC network transparent. First, we define trust attributes affecting the trusted quality of the entire infrastructure and then a methodology with a computation model that combines these trust attribute values. Our experiments showed that the trust model allows us to reduce latency by removing the burden from a single MEC node, while at the same time increase the network trustworthiness.
DOI10.1109/FMEC54266.2021.9732606
Citation Keyle_distributed_2021