Browse > Article
http://dx.doi.org/10.3745/KTCCS.2016.5.9.211

A Study on the Diffusion of Emergency Situation Information in Association with Beacon Positioning Technology and Administrative Address  

Mo, Eunsu (한남대학교 컴퓨터공학과)
Lee, Jeakwang (한남대학교 컴퓨터공학과)
Publication Information
KIPS Transactions on Computer and Communication Systems / v.5, no.9, 2016 , pp. 211-216 More about this Journal
Abstract
Worldwide casualties caused by earthquakes, floods, fire or other disaster has been increasing. So many researchers are being actively done technical studies to ensure golden-time. In this paper if a disaster occurs, use the IoT technologies in order to secure golden-time and transmits the message after to find the user of the accident area first. When the previous job is finished, gradually finds a user of the surrounding area and transmits the message. For national emergency information, OPEN API of Korea Meteorological Administration was used. To collect detailed information on a relevant area in real time, this study established the system that connects and integrates Crowd Sensing technology with BLE (Bluetooth Low Energy) Beacon technology. Up to now, the CBS based on base station has been applied. However, this study designed and mapped DB in the integration of Beacon based user positioning and national administrative address system in order to estimate local users. In this experiment, the accuracy and speed of information dif6fusion algorithm were measured with a rise in the number of users. The experiments were conducted in a manner that increases the number of users by one thousand and was measured the accuracy and speed of the message spread transfer algorithm. Finally, became operational in less than one second in 20,000 users, it was confirmed that the notification message is sent.
Keywords
Calamiry; Disasters; BLE; Beacon; Crowd Sensing; GIS; Alert System;
Citations & Related Records
연도 인용수 순위
  • Reference
1 National Disaster Management Institute, "A Study on Quantitative Standards of Evacuation System in Tsunami Risk Areas," National Disaster Management Institute, 2009.
2 National Disaster Management Institute, "Flood Forecast Chart by the Analysis on Tsunami Flooding Characteristics (I)," National Disaster Management Institute, 2010.
3 National Disaster Management Institute, "Flood Forecast Chart by the Analysis on Tsunami Flooding Characteristics (II)," National Disaster Management Institute, 2011.
4 National Emergency Information Center, "SAFE KOREA National Emergency Management Information System," Ministry of Public Safety and Security, 2014.12.
5 Yoon Mi-young, "Global Big Data Best Practices of Data Analysis for Better Future II," National Information Society Agency, 2013.
6 IBM INFORMATION SERVERnformation_server [Internet], http://www.md2net.com.br/ibm_information_server.asp.
7 Choi Ho-jin, "A Study on IT based Enhanced Communication and Cooperation between Organizations relating to National Emergency Management," The Korea Institute of Public Administration, 2013.
8 National Emergency Management Agency, "Mid-and-Long- Term R&D Project Planning Research for Responding to Tsunami," National Emergency Management Agency, 2013.
9 Ministry of Public Safety and Security, "Smart Emergency Management, Begin with Big Data!" Press Release of Ministry of Public Safety and Security, Apr., 2016.