Document Type : Original Article
Authors
1 MSc, Geographical Information System, Young Researchers and Elite Club, Mamaghan Branch, Islamic Azad University, Mamaghan, Iran
2 MSc, Health Information Technology, Department of Health Information Technology, School of Management and Medical Informatics, Tabriz University of Medical Sciences, Tabriz, Iran
Abstract
Introduction: The earthquake causes thousands of people to fall under the rubble, and if we do not help them as soon as possible, they will lose their lives. On the other hand, rescuers for quicker relief need to have more structured information available at any time and any place. This information helps them justify their position in areas destroyed by an earthquake. The aim of the present study was to implement a system for guiding relief forces in Maragheh City, Iran.Methods: The current research was a descriptive analytical study conducted in the city of Maragheh, East Azerbaijan Province, Iran, in 2018. The information needed in this research was obtained through field observations and location coordinates from Google Maps. Coding was done in the Android environment using Basic4android and SQLite software.Results: Considering the contexts of position, direction, and speed of movement, a context-aware system was implemented for guiding relief forces in the city of Maragheh after the earthquake. This system could show the rescuers online information, such as the position of rescuers, sensitive locations, and the number of people living in a building, and also the shortest route to reach these locations.Conclusion: The results of this study indicate that the use of position, direction, and speed of movement contexts to guide rescuers will increase the efficiency and speed of relief operations and ultimately save people who have been remained under rubble.
Keywords
- Zamani A, Alizadeh S, Naderi A, Pourkarim S. The impact of urban context on vulnerability from earthquake (Case Study: Tabriz City). Proceedings of the 1st National Conference on Urban Construction in the Vicinity of Active Faults; 2013 Feb. 20-21; Tabriz, Iran. [In Persian].
- Malek MR, Delawar MR. A mobile information system for rescue and relief management: Basics and implementation. Proceedings of the Geomatics Conference; 2005 Apr. 21; Tehran, Iran. [In Persian].
- Rostami F, Malek M, Nasseri F. Designing and implementing a context aware system for providing information to the tourist [Thesis]. Kerman, Iran: University of Industrial Education and Advanced Technology; 2013. [In Persian].
- Perera C, Zaslavsky A, Christen P, Georgakopoulos D. Context aware computing for the internet of things: A survey. IEEE Communications Surveys & Tutorials 2014; 16(1): 414-54.
- Schilit B, Adams N, Want R. Context-aware computing applications. Proceeding of the 1st Workshop on Mobile Computing Systems and Applications; 1994 Dec. 8-9; Santa Cruz, CA; 1994. p. 85-90.
- Hao-wei Y, Wen-li D, Dong L, Rogner A, Jing-wei L. Application of GIS on emergency rescue. Proceedings of the 5th Conference on Performance-based Fire and Fire Protection Engineering; 2010 Dec. 7-9; Guangzhou, China. [In Persian].
- Moradi A, Nasiri Z. Optimal site selection of health centers using geographical information system software in Maragheh, Iran. Health Inf Manage 2017; 14(3): 116-23. [In Persian].
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