2020
DOI: 10.1109/access.2020.3002538
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A UAV-Assisted Data Collection for Wireless Sensor Networks: Autonomous Navigation and Scheduling

Abstract: Nowadays, Wireless Sensor Networks (WSNs) are playing a vital and sustainable role in many verticals touching different aspects of our lives including civil, public, and military applications. WSNs majorly consist of a few to several sensor nodes, that are connected to each other via wireless communication links and require real-time or delayed data transfer. In this paper, we propose an autonomous Unmanned Aerial Vehicle (UAV)-enabled data gathering mechanism for delay-tolerant WSN applications. The objective… Show more

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Cited by 55 publications
(28 citation statements)
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“…The UAVs can also be used for data collection to support the transmission of the data gathered by sensor nodes on the ground. In this case, the vehicle capacity to transmit data is limited by the power consumption in the data transmission, flight speed, the available energy on the UAVs, the deployment location, and various other factors investigated in the literature, as presented in [ 62 , 63 , 64 , 65 ].…”
Section: Related Workmentioning
confidence: 99%
“…The UAVs can also be used for data collection to support the transmission of the data gathered by sensor nodes on the ground. In this case, the vehicle capacity to transmit data is limited by the power consumption in the data transmission, flight speed, the available energy on the UAVs, the deployment location, and various other factors investigated in the literature, as presented in [ 62 , 63 , 64 , 65 ].…”
Section: Related Workmentioning
confidence: 99%
“…In [24], the authors propose a multi-agent DQL algorithm to maximize the minimum throughput by the joint optimization of path design and channel resource assignment in a uav-enabled wireless powered communication network, where the UAVs can fly according to a discrete set of actions. References [25] and [26] aim to minimize the overall flight time of the UAVs under their individual energy constraints. The authors in [25] develop an option-based hybrid DRL method that allows the UAV to choose between two algorithms to handle deterministic and ambiguous boundary scenarios.…”
Section: Related Workmentioning
confidence: 99%
“…However, the impact of obstacles on the navigation of the UAVs is ignored. Reference [26] addresses the obstacle-aware navigation based on a joint learning approach which first obtains the shortest route for data collection in an obstacle-constrained scenario based on DDPG and then determines the best schedule of the UAVs based on Qlearning. However, the proposed approach does not consider the power consumption of the sensors.…”
Section: Related Workmentioning
confidence: 99%
“…( ) = Number of edges connected to node All the edges of node i may not participate in forming the MSP. We define the participating degree of a node (vertex) i , represented by ( ) as (17).…”
Section: Participating Degree Of a Vertexmentioning
confidence: 99%
“…Mobile sinks physically move around the WSN and collect the data from the sensors. Mobile units carrying the sink can be ground based or airborne where unmanned aerial vehicles (UAVs) are utilized [14]- [17]. Here, we use multiple sinks (data collectors) mounted on ground based moving units controlled manually or by robots.…”
Section: Introductionmentioning
confidence: 99%