Intelligent Drone Swarms to Search for Victims in Post-Disaster Areas

Haddad, Matheus Nohra; Santos, Andréa Cynthia; Duhamel, Christophe; Coco, Amadeu Almeida

doi:10.3390/s23239540

Sensors

2023

DOI: 10.3390/s23239540

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Intelligent Drone Swarms to Search for Victims in Post-Disaster Areas

Matheus Nohra Haddad,

Andréa Cynthia Santos,

Christophe Duhamel

et al.

Abstract: This study presents the Drone Swarms Routing Problem (DSRP), which consists of identifying the maximum number of victims in post-disaster areas. The post-disaster area is modeled in a complete graph, where each search location is represented by a vertex, and the edges are the shortest paths between destinations, with an associated weight, corresponding to the battery consumption to fly to a location. In addition, in the DSRP addressed here, a set of drones are deployed in a cooperative drone swarms approach to… Show more

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Cited by 1 publication

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Energy-Saving Multi-Agent Deep Reinforcement Learning Algorithm for Drone Routing Problem

Shu,

Lin,

Wen

2024

Sensors

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With the rapid advancement of drone technology, the efficient distribution of drones has garnered significant attention. Central to this discourse is the energy consumption of drones, a critical metric for assessing energy-efficient distribution strategies. Accordingly, this study delves into the energy consumption factors affecting drone distribution. A primary challenge in drone distribution lies in devising optimal, energy-efficient routes for drones. However, traditional routing algorithms, predominantly heuristic-based, exhibit certain limitations. These algorithms often rely on heuristic rules and expert knowledge, which can constrain their ability to escape local optima. Motivated by these shortcomings, we propose a novel multi-agent deep reinforcement learning algorithm that integrates a drone energy consumption model, namely EMADRL. The EMADRL algorithm first formulates the drone routing problem within a multi-agent reinforcement learning framework. It subsequently designs a strategy network model comprising multiple agent networks, tailored to address the node adjacency and masking complexities typical of multi-depot vehicle routing problem. Training utilizes strategy gradient algorithms and attention mechanisms. Furthermore, local and sampling search strategies are introduced to enhance solution quality. Extensive experimentation demonstrates that EMADRL consistently achieves high-quality solutions swiftly. A comparative analysis against contemporary algorithms reveals EMADRL’s superior energy efficiency, with average energy savings of 5.96% and maximum savings reaching 12.45%. Thus, this approach offers a promising new avenue for optimizing energy consumption in last-mile distribution scenarios.

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Energy-Saving Multi-Agent Deep Reinforcement Learning Algorithm for Drone Routing Problem

Shu,

Lin,

Wen

2024

Sensors

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show abstract

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Intelligent Drone Swarms to Search for Victims in Post-Disaster Areas

Cited by 1 publication

References 24 publications

Energy-Saving Multi-Agent Deep Reinforcement Learning Algorithm for Drone Routing Problem

Energy-Saving Multi-Agent Deep Reinforcement Learning Algorithm for Drone Routing Problem

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