Deep Reinforcement Learning Based Energy Efficient Multi-UAV Data Collection for IoT Networks

Khodaparast, Seyed Saeed; Lu, Xiao; Wang, Ping; Nguyen, Uyen Trang

doi:10.1109/ojvt.2021.3085421

Cited by 17 publications

(3 citation statements)

References 26 publications

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“…Moreover Reference 20, explored an energy‐minimizing and clustering approach for sequential trajectory planning, showcasing the effectiveness of DRL in single UAV operations. The authors of 21 put forth a DRL‐based platform for data gathering with multiple UAVs. In Reference 22, energy limitations and sensing information update scenarios for data gathering with multiple UAVs were considered, employing a deep Q‐network and showcasing promising performance.…”

Section: Related Workmentioning

confidence: 99%

Multi‐UAV path planning utilizing the PGA algorithm for terrestrial IoT sensor network under ISAC framework

Azadur,

Pawase,

Chang

2023

Trans Emerging Tel Tech

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The integration of internet of things (IoT) technologies with unmanned aerial vehicles (UAVs) has initiated a groundbreaking revolution in data acquisition and communication systems across diverse domains. This document introduces an innovative endeavor, the integration of multi‐UAV path planning for integrated sensing and communication (ISAC) within ground‐based CAT‐M1 IoT sensor networks, accomplished through the application of the Pareto‐based genetic ant colony optimization (PGA) algorithm. The PGA algorithm is highly capable of UAV path planning due to its efficiency, adaptability, and seamless integration of domain expertise. By employing the PGA algorithm, we simultaneously minimize UAV travel distance while optimizing energy consumption, resulting in multi‐objective optimization. The synergy of ground‐based IoT sensors and seamless UAV communication, coupled with a convex optimization resource allocation algorithm, empowers real‐time data acquisition and heightens situational awareness. Our proposed UAV path planning PGA algorithm with resource allocation is crafted to maximize the efficiency of ground‐based sensor data acquisition. We stand at the forefront of advancing multi‐UAV data collection systems with this pioneering approach, promoting increased efficiency, robustness, and transformative solutions across diverse domains. The proposed system for ISAC achieves an impressive throughput of up to 95% of the system's capacity.

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Section: Related Workmentioning

confidence: 99%

Multi‐UAV path planning utilizing the PGA algorithm for terrestrial IoT sensor network under ISAC framework

Azadur,

Pawase,

Chang

2023

Trans Emerging Tel Tech

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show abstract

“…Using the UAV's starting spot and the destination device, [15] employed the deep deterministic policy gradient (DDPG) approach that create the optimum design for the UAV inside an extra hurdle context. In [16] the author made suitable for low resource usage, a pervasive farming mobile sensor network-based threshold built-in MAC routing protocol (TBMP) has been developed.…”

Section: Related Workmentioning

confidence: 99%

“…The performance of our proposed reinforcement learning-based topology-aware routing protocol with priority scheduling (RLTARP) is carried out by compared with three existing methods such as DroneCOCoNet [12], Markov decision process (MDP) [15] and deep deterministic policy gradient (DDPG) [16].…”

Section: Performance Analysismentioning

confidence: 99%

Reinforcement Learning-based Topology-Aware Routing Protocol with Priority Scheduling for Internet of Drones in Agriculture Application

2023

IJIES

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Internet of drones (IoD) are commonly constructed with unmanned vehicles, have been progressively prevalent due to their capability to operate quickly and their vast range of applications in a variety of real-world circumstances. These IoDs are interact with zone service providers (ZSPs) to achieve the goal of assisting drones in accessing controlled agriculture services. The utilization of drones in precision farming has lately gained a lot of attention from the scientific community. This study addresses with the assistance of drones in the precision agricultural area by analysing communication protocols and applying them to the challenge of commanding a fleet of drones to protect crops from parasite infestations. objectively and equitably assigns a weight to multiple service scheduling parameters based on maldistributed decision making theory, calculates the serving priority of each service request group, and then serves the service request groups based on the calculated serving priori-ty accordingly Hence, this paper proposes reinforcement learning-based topology-aware routing protocol with priority scheduling (RLTARP) to provide reliable combinations between the source and destination. It also improves the routing decision by considering two-hop neighbour nodes, extending the local view of the network topology. The priority scheduling method adopts maldistributed decision making theory, to find the group of priorities based on service request. The proposed RLTARP is compared with three existing methods such as DroneCOCoNet, Markov decision process (MDP)and deep deterministic policy gradient (DDPG) and hence it produces 46.34% of packet delivery ratio, 67.49% of end to end delay, 16.45% of routing overhead, 13% of energy consumption and 97.6% of network lifetime.

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An On-Site Collaborative Approach of Road Crash Data Collection

Tiam

Gueye

Niang

2023

Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering

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Deep Reinforcement Learning Based Energy Efficient Multi-UAV Data Collection for IoT Networks

Cited by 17 publications

References 26 publications

Multi‐UAV path planning utilizing the PGA algorithm for terrestrial IoT sensor network under ISAC framework

Multi‐UAV path planning utilizing the PGA algorithm for terrestrial IoT sensor network under ISAC framework

Reinforcement Learning-based Topology-Aware Routing Protocol with Priority Scheduling for Internet of Drones in Agriculture Application

An On-Site Collaborative Approach of Road Crash Data Collection

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