Abstract
Internet of Things (IoT) is a very promising technology in forest engineering, especially for the environment and plant growth monitoring. LoRa Wide Area Network (LoRaWAN) is a prevailing choice for the Forestry IoT owing to its low-power and long-range ability. Real-world deployment and network optimization require accurate path-loss modeling, so the LoRaWAN radio channel in the forest is needed to be intensively studied. However, most of the subsistent propagation models do not involve specific forestry environmental parameters. In this paper, two parameters related with the trees are considered: the leaf area index and the tree trunk diameter. Due to the time-changing characteristics of these two items (from spring to winter), an empirical model has been developed through extensive measurement campaigns: Firstly, the channel measurement platform is designed based on a real scene of mixed forest. Secondly, the fading characteristics of the channel transmission for LoRa nodes are tested, and the corresponding model is presented and evaluated. Lastly, an energy harvesting LoRaWAN is deployed and operated in a sampled forest region of Eastern China for environment monitoring based on our propagation model. The results show that 433 MHz LoRa path loss in the mingled forest could be precisely predicted by our proposed model. Moreover, network coverage and energy consumption optimization of the LoRa nodes could be performed, which enables the perpetual development of reliable forestry evolution monitoring system.
Highlights
The multispecies forest is an important silvicultural regime for sustainable forest management
The received signal strength indicator (RSSI) values collected in the mixed forest environment were all converted into Pass Loss (PL) values which represent the signal attenuation on the path between the transmitter and the receiver antennas
The relationship between PL, transmission power, and RSSI is given as: where PL refers to the path loss, PT refers to the transmitting power, PR is the receiving power (PR = RSSI + signal-to-noise ratio (SNR)), GT is the transmit antenna gain, and GR is the receive antenna gain
Summary
The multispecies forest is an important silvicultural regime for sustainable forest management. Along with its increasing area, mixed forest management faces different challenges [1]: competitions for natural resources of different tree species, different tending measures of growth stages, and improving pest control technologies. It is urgent to develop and exploit reasonable resource monitoring systems for the prediction and management of mixed forest [2, 3]. LoRaWAN is one of the most prospective LPWAN technologies, gaining greater interest from the research and industrial communities. It has been increasingly adopted in the Internet of Things (IoT) in the forest [7,8,9,10]
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