Litcius/Paper detail

Delay and Energy Consumption of MQTT over QUIC: An Empirical Characterization Using Commercial-Off-The-Shelf Devices

Sidna Jeddou, Fátima Fernández, Luis Díez, Amine Baïna, Najid Abdallah, Ramón Agüero

2022Sensors15 citationsDOIOpen Access PDF

Abstract

The QUIC protocol, which was originally proposed by Google, has recently gained a remarkable presence. Although it has been shown to outperform TCP over a wide range of scenarios, there exist some doubts on whether it might be an appropriate transport protocol for IoT. In this paper, we specifically tackle this question, by means of an evaluation carried out over a real platform. In particular, we conduct a thorough characterization of the performance of the MQTT protocol, when used over TCP and QUIC. We deploy a real testbed, using commercial off-the-shelf devices, and we analyze two of the most important key performance indicators for IoT: delay and energy consumption. The results evince that QUIC does not only yield a notable decrease in the delay and its variability, over various wireless technologies and channel conditions, but it does not hinder the energy consumption.

Topics & Concepts

MQTTTestbedComputer scienceEnergy consumptionProtocol (science)Key (lock)Channel (broadcasting)Computer networkInternet of ThingsEmbedded systemEngineeringComputer securityAlternative medicineMedicinePathologyElectrical engineeringIoT and Edge/Fog ComputingIoT Networks and ProtocolsWireless Networks and Protocols