Publication
TRIFFID: Autonomous robotic aid for increasing first responders efficiency
Conference Article
Conference
International Conference in Electronic Engineering and Information Technology (EEITE)
Edition
6th
Doc link
https://eeite.hmu.gr/technical-program/
File
Authors
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Cani, Jorgen
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Panagiotis, Koletsis
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Foteinos, Konstantinos
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Kefaloukos, Ioannis
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Argyriou, Lampros
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Falelakis, Manolis
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del Pino Bastida, Iván
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Santamaria Navarro, Angel
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Čech, Martin
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Severa, Ondřej
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Umbrico, Alessandro
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Fracasso, Francesca
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Orlandini, Andrea
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Drakoulis, Dimitrios
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Markakis, Evangelos
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Varlamis, Iraklis
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Th. Papadopoulos, Georgios
Projects associated
Abstract
The increasing complexity of natural disaster incidents demands innovative technological solutions to support first responders in their efforts. This paper introduces the TRIFFID system, a comprehensive technical framework that integrates unmanned ground and aerial vehicles with advanced artificial intelligence functionalities to enhance disaster response capabilities across wildfires, urban floods, and post-earthquake search and rescue missions. By leveraging state-of-the-art autonomous navigation, semantic perception, and human-robot interaction technologies, TRIFFID provides a sophisticated system composed of the following key components: hybrid robotic platform, centralized ground station, custom communication infrastructure, and smartphone application. The defined research and development activities demonstrate how deep neural networks, knowledge graphs, and multimodal information fusion can enable robots to autonomously navigate and analyze disaster environments, reducing personnel risks and accelerating response times. The proposed system enhances emergency response teams by providing advanced mission planning, safety monitoring, and adaptive task execution capabilities. Moreover, it ensures real-time situational awareness and operational support in complex and risky situations, facilitating rapid and precise information collection and coordinated actions.
Categories
intelligent robots, mobile robots, multi-robot systems.
Scientific reference
J. Cani, K. Panagiotis, K. Foteinos, I. Kefaloukos, L. Argyriou, M. Falelakis, I. del Pino, A. Santamaria-Navarro, M. Čech, O. Severa, A. Umbrico, F. Fracasso, A. Orlandini, D. Drakoulis, E. Markakis, I. Varlamis and G. Th. Papadopoulos. TRIFFID: Autonomous robotic aid for increasing first responders efficiency, 6th International Conference in Electronic Engineering and Information Technology, 2025, Chania, to appear.
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