Abstract
Farming is the major profession in several republics for centuries. However, due to the immigration of individuals from rural to urban, there is prevention in farming. The use of modern technology in the precision agriculture field increases productivity and also improves the exports of a country. The productivity may suffer due to different environmental factors, diseases and insects attacks on the crops, especially tomatoes. The target area (i.e. the affected crops area due to environmental factors) identification and delivery of timely information about diseases in the crops to the ground station are mandatory to make the precautionary measurements. In flying sensor networks, the localization and clustering of multiple unmanned aerial vehicles for target areas identification is a challenging task due to energy constraints, communication range, frequent change in topology, link expiration and high mobility. In this article, we proposed the localization and clustering of multiple unmanned aerial vehicles for the identification of affected target areas in the tomato crop field. The localization of unmanned aerial vehicles depends on the weights of environmental factors, that is, relative humidity, soil moisture, temperature, light intensity, NPK (nitrogen (n), phosphorus (p) and potassium (k)) and power of hydrogen (pH). A honey bee optimization approach is used for the localization and formation of multiple unmanned aerial vehicles’ cluster to accurately identify the target areas. The performance of our bio-inspired approach is compared in terms of communication overhead, packet delivery ratio, mean end-to-end delay and energy consumption with the existing swarm intelligence–based schemes and validated via a simulation. The simulation result shows that the bio-inspired approach performs better among the selected approaches.
Highlights
Flying sensor network (FSN) is the emerging area that builds the interconnection of multiple unmanned aerial vehicles, actuators, ground sensors and near-field communication (NFC), which bring the revolution to each and everything by making it smart and intelligent.[1]
UAV: unmanned aerial vehicle; BICTID: Bio-Inspired Cluster-based optimal Target IDentification; SIL-PSO: swarm intelligence–based localization particle swarm optimization; Loc-GA: localization based on genetic algorithm; Loc-KMeans: K-means–based localization
We proposed the BICTID scheme for FSN to accurately identify the target areas (TAs) in the field of precision agriculture
Summary
Flying sensor network (FSN) is the emerging area that builds the interconnection of multiple unmanned aerial vehicles (multi-UAVs), actuators, ground sensors and near-field communication (NFC), which bring the revolution to each and everything by making it smart and intelligent.[1]. The reliability of the communication link is required to provide real-time communication because the link may be down, the energy may be low or the interference may occur To overcome these issues, the designing of cluster-based routing is required that considers these issues to enhance FSN lifetime. Many research communities contributed to the field of smart agriculture farming but still, this area is in its infancy and there are numerous issues that exist the TA identification, accurate localization of multi-UAVs, reliability and real-time communication of information about the affected TAs. The main contribution of the proposed scheme is to localize the UAVs and identify the TAs in the tomato crop field based on the optimization of environmental factors. The existing research work on the precision agriculture field, which is based on multi-UAVs, aided wireless sensor network (WSN), clustering and optimization of multi-UAVs is discussed in section ‘Literature review’.
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