Abstract
The growing need for food worldwide requires the development of a high-performance, high-productivity, and sustainable agriculture, which implies the introduction of new technologies into monitoring activities related to control and decision-making. In this regard, this paper presents a hierarchical structure based on the collaboration between unmanned aerial vehicles (UAVs) and federated wireless sensor networks (WSNs) for crop monitoring in precision agriculture. The integration of UAVs with intelligent, ground WSNs, and IoT proved to be a robust and efficient solution for data collection, control, analysis, and decisions in such specialized applications. Key advantages lay in online data collection and relaying to a central monitoring point, while effectively managing network load and latency through optimized UAV trajectories and in situ data processing. Two important aspects of the collaboration were considered: designing the UAV trajectories for efficient data collection and implementing effective data processing algorithms (consensus and symbolic aggregate approximation) at the network level for the transmission of the relevant data. The experiments were carried out at a Romanian research institute where different crops and methods are developed. The results demonstrate that the collaborative UAV–WSN–IoT approach increases the performances in both precision agriculture and ecological agriculture.
Highlights
The need for high-performance, high-productivity, and sustainable agriculture results from the rapid growth of the human population
The base station (CH) collects the primary data processed from the field sensors and periodically it to a unmanned aerial vehicles (UAVs) according to its synchronization with the planned trajectory
The data are processed transmits it to a UAV according to its synchronization with the planned trajectory
Summary
The need for high-performance, high-productivity, and sustainable agriculture results from the rapid growth of the human population. In PA, farmers need to know exact and timely details about crop status These details about certain parameters, obtained by measurements both from the ground and in the air, constitute input data to specialized systems of process management in the PA. For acquisition and complex processing of the collected data, integration of unmanned aerial vehicles (UAV) with wireless sensor networks (WSN) under novel frameworks, such as the Internet of Things (IoT), has been shown to contribute to increases in agricultural yields [2]. Such advanced systems are modeled as well-specified
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