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A New LoRa-like Transceiver Suited for LEO Satellite Communications

Mohamed Amine Ben Temim, Guillaume Ferré, Romain Tajan

2022Sensors24 citationsDOIOpen Access PDF

Abstract

LoRa is based on the chirp spread spectrum (CSS) modulation, which has been developed for low power and long-range wireless Internet of Things (IoT) communications. The structure of LoRa signals makes their decoding performance extremely sensitive to synchronization errors. To alleviate this constraint, we propose a modification of the LoRa physical layer, which we refer to as differential CSS (DCSS), associated with an original synchronization algorithm. Based on this modification, we are able to demodulate the received signals without performing a complete frequency synchronization and by tolerating some timing synchronization errors. Hence, our receiver can handle ultra narrow band LoRa-like signals since it has no limitation on the maximum carrier frequency offset, as is actually the case in the deployed LoRa receivers. In addition, in the presence of the Doppler shift varying along the packet duration, DCSS shows better performance than CSS, which makes our proposed receiver a good candidate for communication with a low-Earth orbit (LEO) satellite.

Topics & Concepts

Computer scienceDemodulationChirp spread spectrumNetwork packetFrequency offsetCommunications satelliteWirelessChirpSynchronization (alternating current)Real-time computingElectronic engineeringTransceiverDoppler effectComputer networkChannel (broadcasting)SatelliteSpread spectrumTelecommunicationsDirect-sequence spread spectrumOrthogonal frequency-division multiplexingEngineeringLaserAerospace engineeringOpticsPhysicsAstronomyIoT Networks and ProtocolsBluetooth and Wireless Communication TechnologiesEnergy Harvesting in Wireless Networks
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