Abstract
In this paper, the automation of the evacuation process of a military ship is studied in real time. For this purpose, a scenario is reconfigured to produce a failure or damage. Then, an optimal network of alternative escape routes is computed. The resulting escape route map can be indicated by lighting the appropriate corridors on the ship. Through these corridors, the members of the embarked population and the entire process is monitored so that the crew can reach their lifeboats in the shortest possible time. To undertake this automated process, the dynamic ship evacuation monitoring system (SIMONE, from its acronym in Spanish: Sistema de Monitorización Dinámica de Evacuación de Buques) has been developed. This system integrates a communication gateway with the integrated platform control system (IPCS) and integrated lighting system that will be installed in new Spanish naval constructions.
Subject
Fluid Flow and Transfer Processes,Computer Science Applications,Process Chemistry and Technology,General Engineering,Instrumentation,General Materials Science
Reference22 articles.
1. VELOS: A VR platform for ship-evacuation analysis;Ginnis;Comput.-Aided Des.,2010
2. Passenger ship evacuation simulation and validation by experimental data sets;Wang;Procedia Eng.,2014
3. Stefanidis, F., Boulougouris, E., and Vassalos, D. (May, January 30). Ship evacuation and emergency response trends. In Proceedings of RINA International Conference on Design and Operation of Passenger Ships, London, UK.
4. Simplified evacuation planning model on naval ship;Liu;Appl. Mech. Mater. Trans. Tech. Publ.,2011
5. The current status and future issues in human evacuation from ships;Lee;Saf. Sci.,2003