期刊
IEEE WIRELESS COMMUNICATIONS LETTERS
卷 11, 期 3, 页码 660-664出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LWC.2022.3140860
关键词
Modulation; Indexes; Discrete Fourier transforms; Demodulation; Receivers; Internet of Things; Fading channels; LoRa; CSS modulation; IoT; waveform design
资金
- National Key Research and Development Program of China [2020YFB1807900]
LoRa is a proprietary technology used for IoT applications, which supports long range communication through CSS modulation. This letter proposes a novel group-based CSS modulation scheme and introduces a configurable parameter to achieve a flexible trade-off between power and spectral efficiency. Simulation results demonstrate the feasibility and advantages of this new modulation scheme.
LoRa is a proprietary technology for IoT (Internet of Things) applications and it has attracted widespread interest from both academia and industry in recent years. As the core technique of LoRa physical (PHY) layer, chirp spread spectrum (CSS) modulation is adopted to support long range communications. In this letter, we propose a novel group-based CSS (GCSS) modulation scheme and introduce a new configurable parameter called group number (GN) as an enhancement to LoRa PHY layer with the aim of achieving a more extensive and flexible trade-off between power and spectral efficiency. Moreover, by exploiting the intrinsic properties of GCSS modulation, we prove that the maximum spectral efficiency can reach up to 0.5 bps/Hz. Simulation results of BER (bit error rate) performance in both AWGN and Rayleigh fading channels are presented to verify the feasibility and advantage of this new modulation scheme.
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