Litcius/Paper detail

Edge Computing based Traffic Control Management for Distributed Environment

P. William, D. Rajani, Manish Gupta, Resham Taluja, Ahmed Alawadi, Dinesh Kumar Yadav

202318 citationsDOI

Abstract

Mobile Edge Computing (MEC) users’ quality of service (QoS) may be significantly improved by local communication. The backbone of 5G communication is the Radio Access Network (RAN), which will generate and transmit a significant amount of user traffic to the fronthaul and backhaul gateways. Due to the fact that fronthaul and backhaul gateways are frequently constructed utilising optical networks, a bottleneck network will form when there is more traffic coming than the gateways can handle. The aforementioned problems must be resolved in order to meet real-time communication’s ULL (ultralow latency) criteria. In this study, we suggested that user traffic at both gateways be managed using MEC-based traffic management.) Chat, streaming, interactive, and background user traffic were separated into their own separate categories by the system. Additionally, split traffic may be stored on a MEC server connected to a gateway. Consequently, the MEC server. With the use of a computer simulation, the outcomes of the simulation may be verified.

Topics & Concepts

Backhaul (telecommunications)Computer networkComputer scienceBottleneckQuality of serviceInternetworkingResidential gatewayServerEdge computingQuality of experienceTraffic shapingDefault gatewayNetwork traffic controlRadio access networkEnhanced Data Rates for GSM EvolutionOperating systemThe InternetBase stationTelecommunicationsMobile stationEmbedded systemNetwork packetArtificial Intelligence and Decision Support SystemsInternet of Things and AISmart Agriculture and AI