Litcius/Paper detail

Performance Evaluation of Random Access Methods for IoT-over-Satellite

Chiu Chun Chan, Bassel Al Homssi, Akram Al‐Hourani

2022Remote Sensing20 citationsDOIOpen Access PDF

Abstract

Low Earth orbit (LEO) satellite constellations are currently being explored to provide global and seamless coverage for IoT-over-Satellite applications. Random access techniques require low transmission overhead providing a compatible route for IoT-over-Satellite applications, however, coming at the expense of the offered quality-of-service. In this paper, we develop a realistic uplink performance framework that incorporates many practical parameters such as the satellite availability, packet collision and interference, Doppler shift, and impairments experienced in a typical Satellite-to-Ground channel. The framework is capable of assessing multiple key performance indicators of the overall IoT-over-Satellite random access system. The performance is presented in terms of the bit error rate, packet error rate, and the energy wasted per IoT device. To emulate a realistic IoT-over-Satellite network, LoRa modulated traffic is first generated and injected into the Satellite-to-Ground channel. The results indicate high resistance to Doppler shifts even without any Doppler correction and provide some resistance to highly congested environments.

Topics & Concepts

Computer scienceSatelliteTelecommunications linkOverhead (engineering)Network packetChannel (broadcasting)Random accessComputer networkReal-time computingConstellationAerospace engineeringEngineeringAstronomyPhysicsOperating systemIoT Networks and ProtocolsSatellite Communication SystemsAdvanced Wireless Communication Technologies