Adaptive Multi-Channels Allocation in LoRa Networks

In this paper, we consider an IoT dedicated network corresponding to a non licensed LoRa Low Power Wide Area Network. The LoRa network operates in the unlicensed 868 MHz band within a total bandwidth of 1 MHz divided into 8 orthogonal channels of 125 kHz each. Despite the high level of interference,...

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Published in	IEEE access Vol. 8; pp. 214177 - 214189
Main Authors	Yu, Yi, Mroueh, Lina, Duchemin, Diane, Goursaud, Claire, Vivier, Guillaume, Gorce, Jean-Marie, Terre, Michel
Format	Journal Article
Language	English
Published	Piscataway IEEE 2020 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Bandwidth Bandwidths Cascading style sheets Channels Chirp Chirp Spread Spectrum modulation Data recovery Electric power distribution Engineering Sciences Interference Internet of Things Logic gates LoRa network Low Power Wide Area Network (LPWAN) Modulation Nodes Power consumption Power management Repetition Resource management Rural areas spatial Poisson Point Process Spread spectrum Statistical analysis stochastic geometry Urban areas Wide area networks
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ISSN	2169-3536 2169-3536
DOI	10.1109/ACCESS.2020.3040765

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Abstract	In this paper, we consider an IoT dedicated network corresponding to a non licensed LoRa Low Power Wide Area Network. The LoRa network operates in the unlicensed 868 MHz band within a total bandwidth of 1 MHz divided into 8 orthogonal channels of 125 kHz each. Despite the high level of interference, this network offers long range communications in the order of 2 to 5 km in urban areas and 10 to 30 km in rural areas. To efficiently mitigate this high level of interference, LoRa network essentially relies on a Chirp Spread Spectrum (CSS) modulation and on repetition diversity mechanisms. The LoRa CSS modulation spreads the signal within a band of 125 kHz using 6 possible spreading factors (from 7 to 12) to target data rates (starting from 5 kbps for the closest node to 300 bps for the furthest ones). The repetition diversity mechanisms enable the data recovery when the transmission is subject to bad channel conditions or/and high interference levels. Although the CSS modulation protects edge-cell's devices from the high level of interference induced by nodes in the proximity of the gateway, it fails to protect nodes at the edge of a given SF region and several trials are required to recover the packet. In this paper, we propose an adaptive multi-channels allocation policy that attributes multiple adjacent channels of 125 kHz for nodes situated at the edge of SF zones. We study the impact of this adaptive sub-band allocation on the gateways' intensities, the rate distribution and the power consumption. Our results are based on a statistical characterization of the interference in the network as well as the outage probability in a typical cell.
AbstractList	In this paper, we consider an IoT dedicated network corresponding to a non licensed LoRa Low Power Wide Area Network. The LoRa network operates in the unlicensed 868 MHz band within a total bandwidth of 1 MHz divided into 8 orthogonal channels of 125 kHz each. Despite the high level of interference, this network offers long range communications in the order of 2 to 5 km in urban areas and 10 to 30 km in rural areas. To efficiently mitigate this high level of interference, LoRa network essentially relies on a Chirp Spread Spectrum (CSS) modulation and on repetition diversity mechanisms. The LoRa CSS modulation spreads the signal within a band of 125 kHz using 6 possible spreading factors (from 7 to 12) to target data rates (starting from 5 kbps for the closest node to 300 bps for the furthest ones). The repetition diversity mechanisms enable the data recovery when the transmission is subject to bad channel conditions or/and high interference levels. Although the CSS modulation protects edge-cell’s devices from the high level of interference induced by nodes in the proximity of the gateway, it fails to protect nodes at the edge of a given SF region and several trials are required to recover the packet. In this paper, we propose an adaptive multi-channels allocation policy that attributes multiple adjacent channels of 125 kHz for nodes situated at the edge of SF zones. We study the impact of this adaptive sub-band allocation on the gateways’ intensities, the rate distribution and the power consumption. Our results are based on a statistical characterization of the interference in the network as well as the outage probability in a typical cell.
Author	Gorce, Jean-Marie Mroueh, Lina Yu, Yi Goursaud, Claire Terre, Michel Duchemin, Diane Vivier, Guillaume
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SubjectTerms	Bandwidth Bandwidths Cascading style sheets Channels Chirp Chirp Spread Spectrum modulation Data recovery Electric power distribution Engineering Sciences Interference Internet of Things Logic gates LoRa network Low Power Wide Area Network (LPWAN) Modulation Nodes Power consumption Power management Repetition Resource management Rural areas spatial Poisson Point Process Spread spectrum Statistical analysis stochastic geometry Urban areas Wide area networks
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Title	Adaptive Multi-Channels Allocation in LoRa Networks
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