Litcius/Paper detail

Enhanced PSK-LoRa

Ali Waqar Azim, Jorge Luis Gulfo Monsalve, Marwa Chafii

2021IEEE Wireless Communications Letters14 citationsDOI

Abstract

This letter introduces enhanced phase shift keying Long Range (ePSK-LoRa) as an alternative to classical modulation approaches for low power wide area networks. By employing different combinations of phase and frequency shifts of the orthogonal chirp and using signal averaging, ePSK-LoRa achieves higher energy efficiency and higher spectral efficiency (SE) relative to the state-of-the-art schemes. Besides comprehensively elucidating the orthogonality of the transmitted symbols, we present maximum likelihood and absolute value detectors. The simulation results depict that besides affording higher SE, ePSK-LoRa requires lower signal-to-noise ratio per bit for correct detection making it a viable alternative to the classical approaches.

Topics & Concepts

OrthogonalityPhase-shift keyingChirpComputer scienceChirp spread spectrumSpectral efficiencyDetectorModulation (music)Signal-to-noise ratio (imaging)AlgorithmEnergy (signal processing)KeyingRange (aeronautics)Efficient energy useElectronic engineeringTelecommunicationsBit error rateMathematicsSpread spectrumPhysicsStatisticsDecoding methodsOpticsElectrical engineeringDirect-sequence spread spectrumAcousticsChannel (broadcasting)EngineeringGeometryLaserAerospace engineeringIoT Networks and ProtocolsEnergy Harvesting in Wireless NetworksWireless Body Area Networks