Abstract
The use of monitoring sensors is increasingly present in the context of precision agriculture. Usually, these sensor nodes (SNs) alternate their states between periods of activation and hibernation to reduce battery usage. When employing unmanned aerial vehicles (UAVs) to collect data from SNs distributed over a large agricultural area, we must synchronize the UAV route with the activation period of each SN. In this article, we address the problem of optimizing the UAV path through all the SNs to reduce its flight time, while also maximizing the SNs’ lifetime. Using the concept of timeslots for time base management combined with the idea of flight prohibition list, we propose an efficient algorithm for discovering and reconfiguring the activation time of the SNs. Experimental results were obtained through the development of our own simulator—UAV Simulator. These results demonstrate a considerable reduction in the distance traveled by the UAV and also in its flight time. In addition, the model provides a reduction in transmission time by SNs after reconfiguration, thus ensuring a longer lifetime for the SNs in the monitoring environment, as well as improving the freshness and continuity of the gathered data, which support the decision-making process.
Highlights
Unmanned aerial vehicles (UAVs), popularly known as drones, are increasingly used in agriculture and livestock for monitoring, spraying, and tracking, as well as for imaging and sensory data collection
We proposed a method for data collection from sensor nodes (SNs) by an UAV for use in precision agriculture applications
The introduced Prohibition List strategy used by the UAVs allowed us to save
Summary
Unmanned aerial vehicles (UAVs), popularly known as drones, are increasingly used in agriculture and livestock for monitoring, spraying, and tracking, as well as for imaging and sensory data collection. Advancements in UAV technology in recent years have significantly reduced costs. Higher accessibility for the technology translates into rapid dissemination of information via specialized websites and discussion forums, and the development of new features and applications for drones. Other areas, such as terrain mapping, search and rescue, security, cinematography and delivery, were revolutionized by this technology [1]. Many studies about UAV applications aim to solve society modern problems. Klaine et al [2]
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