Abstract
The reduction of the effects of heat-stress phenomena on poultry health and energy conservation of poultry farm monitoring networks are highly related problems. To address these problems, we propose environmental perception Q-learning (EPQL) to prolong the lifetime of poultry farm monitoring networks. EPQL consists of an environmental-perception module and Q-learning. According to the temperature and humidity model of heat stress, an environmental-perception module determines the transmission rate, while Q-learning adjusts the transmission rate according to the success rate of packet transmission and the remaining energy. In real-world tests, our poultry farm monitoring networks used only about 8% of energy in a month. The real-time information of these monitoring networks was available on smartphones. In laboratory tests, compared with CSMA/CA (23.67 days), S-MAC (109.37 days), and T-MAC (252.79 days) under real systems with 2000 mAh battery, the battery-life performance of EPQL (436.48 days) was better. Moreover, EPQL reduces the packet loss rate by about 60% while simultaneously decreasing the average delay by about 20%. Generally, based on the framework of EPQL, the implemented temperature and humidity model of heat stress for poultry could be replaced by other models to extend its applicability range.
Highlights
With the large-scale deployment of wireless sensor networks (WSNs), intelligent algorithms are widely used to enhance equipment performance
This paper proposes environmental perception Q-learning (EPQL) to prolong the lifetime of poultry farm monitoring networks
As far as we know, there is little research using the related temperature and humidity model [3,24] to prolong the lifetime of poultry farm monitoring networks
Summary
With the large-scale deployment of wireless sensor networks (WSNs), intelligent algorithms are widely used to enhance equipment performance. This expands our perception capability of monitoring environments and improves the production efficiency of equipment [1]. In poultry farm monitoring networks, the energy-saving performances of sensor nodes are important. As far as we know, there is little research concerning energy-saving schemes for poultry farm monitoring networks. With the scale of poultry farming increasing, the number of sensor nodes increases This indicates the conflict between the large data-transmission requirements and energy-saving requirements
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