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Performance of LoRa-Based Schemes and Quadrature Chirp Index Modulation

Giuseppe Baruffa, Luca Rugini

2021IEEE Internet of Things Journal23 citationsDOI

Abstract

This article proposes new approximations for the bit error probability of several LoRa-based schemes, such as phase-shift keying (PSK) LoRa, in-phase and quadrature (IQ) chirp spread spectrum (CSS), discrete chirp rate keying (DCRK) CSS, and CSS with index modulation (IM). We include a new scheme that combines IQ, CSS, and IM, denoted as IQ chirp index modulation (IQCIM). Our analysis, which assumes coherent detection in additive white Gaussian noise, compares the LoRa-based schemes also in terms of spectral efficiency, computational complexity, and peak-to-average power ratio (PAPR). Noncoherent detection of CSS with IM is analyzed as well. Our performance analysis shows that the proposed IQCIM produces a significant increase of spectral efficiency (SE) compared to LoRa with similar complexity, at an energy cost of approximately 0.9 dB. When compared to the other LoRa-based schemes, for a fixed decoding latency, the SE of IQCIM is still the largest, with reduced computational cost per transmitted bit. In this context, we also propose a maximum-likelihood (ML) coherent detector for PSK-LoRa and a novel noncoherent detector for IQCSS.

Topics & Concepts

ChirpPhase-shift keyingChirp spread spectrumQuadrature amplitude modulationKeyingAdditive white Gaussian noiseComputer scienceDetectorSpectral efficiencyAlgorithmBit error rateDecoding methodsMathematicsElectronic engineeringTelecommunicationsWhite noiseSpread spectrumPhysicsOpticsDirect-sequence spread spectrumChannel (broadcasting)LaserEngineeringIoT Networks and ProtocolsAdvanced Wireless Communication TechnologiesEnergy Harvesting in Wireless Networks
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