Improving Delivery Ratio in LoRa Network

The LoRa (Long Range) radio communication provides large coverage areas, low bandwidth, small data rates, and transmitting limited data sizes, with very low energy usage. Multiple transmission channels are used, but the number of channels available is fairly limited - e.g. 8 in most countries in Europe. The amount of interferences may be estimated by the continuous observation of the number of delivered packets and the received signal strength. We propose to aggregate and analyse those metrics per channel and geographical area. When the proportion of received packets per some of the areas decreases, it is subjected to heavier interferences than other parts of the network and should be used less intensively. Thus we propose to allocate the weights for each channel per geographic area and/or device, defining the probability of the channel usage. Furthermore, we created an algorithm that periodically updates the weights and a simulation model using OMNeT++, FloRa, taking into account possible packets collisions. The algorithm has been validated for both random and realistic network topologies. The simulation evaluations show a significant improvement in the package delivery efficiency, by almost 50% in scenarios with very high interference level simulated and by more than 13% in scenarios fed with real-life measurements of packet delivery probability changes in time.

[1]  Jie Xiong,et al.  Combating interference for long range LoRa sensing , 2020, SenSys.

[2]  Susana Sargento,et al.  A Multi-Technology Opportunistic Platform for Environmental Data Gathering on Smart Cities , 2017, 2017 IEEE Globecom Workshops (GC Wkshps).

[3]  Krzysztof Grochla,et al.  Simulation Analysis of Packet Delivery Probability in LoRa Networks , 2019, CN.

[4]  Alexandru Lavric,et al.  A LoRaWAN: Long range wide area networks study , 2017, 2017 International Conference on Electromechanical and Power Systems (SIELMEN).

[5]  Mario Di Francesco,et al.  Adaptive configuration of lora networks for dense IoT deployments , 2018, NOMS 2018 - 2018 IEEE/IFIP Network Operations and Management Symposium.

[6]  Andri Rahmadhani,et al.  When LoRaWAN Frames Collide , 2018, WiNTECH@MOBICOM.

[7]  KyungHi Chang,et al.  Co-channel interference management using eICIC/FeICIC with coordinated scheduling for the coexistence of PS-LTE and LTE-R networks , 2017, EURASIP J. Wirel. Commun. Netw..

[8]  Utz Roedig,et al.  Mitigating Inter-network Interference in LoRa Networks , 2016, EWSN.

[9]  M. Varacallo,et al.  2019 , 2019, Journal of Surgical Orthopaedic Advances.

[10]  Stephen Farrell,et al.  Low-Power Wide Area Network (LPWAN) Overview , 2018, RFC.

[11]  P. Alam ‘T’ , 2021, Composites Engineering: An A–Z Guide.

[12]  Bernard Tourancheau,et al.  Channel Coding for Better QoS in LoRa Networks , 2018, 2018 14th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob).

[13]  Rongtao Xu,et al.  A Novel Rate and Channel Control Scheme Based on Data Extraction Rate for LoRa Networks , 2019, 2019 IEEE Wireless Communications and Networking Conference (WCNC).

[14]  Viktor R. Stoynov,et al.  Interference Management in LoRaWANs — Overview and Simulation Study , 2018, 2018 Advances in Wireless and Optical Communications (RTUWO).

[15]  Gabriel-Miro Muntean,et al.  Mitigating the Impact of Cross-Tier Interference on Quality in Heterogeneous Cellular Networks , 2020, 2020 IEEE 45th Conference on Local Computer Networks (LCN).

[16]  Martin Jacobsson,et al.  Investigating interference between LoRa and IEEE 802.15.4g networks , 2017, 2017 IEEE 13th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob).

[17]  Raphaël Féraud,et al.  Node-based optimization of LoRa transmissions with Multi-Armed Bandit algorithms , 2018, 2018 25th International Conference on Telecommunications (ICT).

[18]  K. Sandrasegaran,et al.  Survey of intercell interference mitigation techniques in LTE downlink networks , 2012, Australasian Telecommunication Networks and Applications Conference (ATNAC) 2012.

[19]  Utz Roedig,et al.  LoRa Transmission Parameter Selection , 2017, 2017 13th International Conference on Distributed Computing in Sensor Systems (DCOSS).

[20]  István Z. Kovács,et al.  Interference Measurements in the European 868 MHz ISM Band with Focus on LoRa and SigFox , 2017, 2017 IEEE Wireless Communications and Networking Conference (WCNC).

[21]  Lina Mroueh,et al.  Adaptive Multi-Channels Allocation in LoRa Networks , 2020, IEEE Access.