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AI-Driven Tethered Drone Surveillance for Maritime Security in Ports and Coastal Areas

Alberto Belmonte-Hernández, Briac Grauby, Anaida Fernández García, Solange Tardi, Torbjørn Houge, Hidalgo García Bango, Antonio P. Gutierrez
April 8, 2026
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Research Abstract & Technology Focus

Effective port and coastal surveillance require persistent monitoring, flexible deployment, and reliable target detection in dynamic maritime environments. This paper presents a system- and deployment-oriented autonomous tethered drone architecture, integrated with AI-based perception, for persistent maritime surveillance in ports and coastal areas. Mounted on a moving maritime platform and powered through a tether, the drone provides a persistent elevated viewpoint without the endurance limitations of conventional battery-powered Unmanned Aerial Vehicles (UAVs). The system combines maritime platform integration, tethered flight operation, fail-safe and safety mechanisms, and a distributed Artificial Intelligence (AI) pipeline for real-time object detection and tracking. The perception module is based on YOLOv8m for vessel detection and BoT-SORT for multi-object tracking, enabling continuous monitoring of maritime targets in realistic operational scenarios. Field trials conducted from moving vessels in maritime environments demonstrate autonomous take-off and landing, stable surveillance operation under realistic wind and wave conditions, and effective vessel detection and tracking on real image sequences. The results show the potential of AI-enabled tethered drone surveillance as a persistent and operationally relevant tool for maritime monitoring and security.
Drone Port (circuit theory) Pipeline (software) Marine engineering Maritime safety Field (mathematics)
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AI-Driven Tethered Drone Surveillance for Maritime Security in Ports and Coastal Areas

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What is the core focus of the research titled 'AI-Driven Tethered Drone Surveillance for Maritime Security in Ports and Coastal Areas'?

This literature focuses on: Effective port and coastal surveillance require persistent monitoring, flexible deployment, and reliable target detection in dynamic maritime environments. This paper presents a system- and deployment-oriented autonomous tethered drone architectur...

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Yes, highly correlated activity was mapped. An entry titled 'AI-Driven Tethered Drone Surveillance for Maritime Security in Ports and Coastal Areas' discusses this: Effective port and coastal surveillance require persistent monitoring, flexible deployment, and reliable target detection in dynamic maritime envir...

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