Abstract
The major problem of an emergency situation is the immediate reaction and the rescue assistance when people call for help. The response time is a vital factor in search and rescue (SAR) operations, owed to the fact that potential delays may have dramatic and even lethal results. Moreover, the safety of rescue workers is another major issue and must be ensured in any circumstance. SAR operations can greatly benefit from the use of Unmanned Aerial Vehicles (UAV) to reduce the time to detect the victim and provide him/her invaluable assistance. UAVs are nimble, quick-moving and can be easily programmed to exhibit autonomous behaviors. Thus, they are able to operate in difficult environments and under circumstances onerous for humans to cope with. This paper presents ROLFER (RObotic Lifeguard For Emergency Rescue), a completely autonomous robotic aerial system for immediate provision of rescue and life-saving services, which does not require human-in-the-loop for its navigation. It aims to provide fast reaction in case of an emergency under adverse environmental conditions. ROLFER is currently studied within the framework of the specific use case to provide one or more auto-inflatable floats to a distressed swimmer, thus, significantly diminishing the response time until the arrival of rescue workers. ROLFER’s architecture and its elements are introduced in detail here; these include the drone and the airborne equipment, the communication link with the base station, the controlling computer and its related software as well as the wearable equipment carried by the people to be supervised and the related software developed. The purpose of the proposed system is to enhance SAR teams operational capabilities in emergency situations in aquatic environment with adverse weather and sea conditions.
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Yeong, S.P., King, L.M., Dol, S.S.: A review on marine search and rescue operations using unmanned aerial vehicles. Int. J. Mech. Aerosp. Ind. Mech. Manuf. Eng. 9(2), 396–399 (2015). World Academy of Science, Engineering and Technology
Bennett, M.: Rescue in all realms, safety missions in europe expand past the air, unmanned systems (2015)
De Cubber, G., et al.: The EU-ICARUS project: developing assistive robotic tools for search and rescue operations. In: IEEE, Safety, Security, and Rescue Robotics (SSRR) (2013)
Matos, A., Silva, E., Cruz, N., Alves, J.C., Almeida, D., Pinto, M., Martins, A., Almeida, J., Machado, D.: Development of an unmanned capsule for large-scale maritime search and rescue. INESC TEC - Institute for Systems and Computer Engineering of Porto (2013)
Perez-Alberti, A., Trenhaile, A.: An initial evaluation of drone-based monitoring of boulder beaches in Galicia, north-western Spain. Earth Surf. Process. Landforms 40, 105–111 (2014)
Kurowski, M., Lampe, B.P.: Agapas: a new approach for search-and-rescue-operations at sea. Proc. Inst. Mech. Eng. Part M J. Eng. Maritime Environ. 2, 156–165 (2014)
RTS Ideas, Pars Drone (2014)
Kelion, L.: Iran Develops Sea Rescue Drone Prototype in Tehran, BBC, November 13 (2013) http://www.bbc.com/news/technology-24929924
General Drones: AUXdron Lifeguard. http://www.generaldrones.es/axdron_lifeguard_drone/
Waharte, S., Trigoni, N.: Supporting search and rescue operations with UAVs. In: IEEE International Conference on Emerging Security Technologies (EST), 6–7 September (2010)
Stu, R.: Project Ryptide: Drone Flies Life-Rings to Distressed Swimmers. http://www.gizmag.com/project-ryptide/35437/. Accessed 6 Jan 2015
University of Wollongong, Life-Saving Drone Takes out Innovation Competition (2014)
Acknowledgments
The authors of the paper would like to thank Stavros Niarchos Foundation as well as the Eastern Macedonia and Thrace Institute of Technology, as ROFER project has been founded as a fellowship with their exclusive support.
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Lygouras, E., Gasteratos, A., Tarchanidis, K. (2017). ROLFER: An Innovative Proactive Platform to Reserve Swimmer’s Safety. In: Dokas, I., Bellamine-Ben Saoud, N., Dugdale, J., Díaz, P. (eds) Information Systems for Crisis Response and Management in Mediterranean Countries. ISCRAM-med 2017. Lecture Notes in Business Information Processing, vol 301. Springer, Cham. https://doi.org/10.1007/978-3-319-67633-3_5
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DOI: https://doi.org/10.1007/978-3-319-67633-3_5
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