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A 2-D Location Determination Model of Buried Persons in Collapsed Shape using Optimal Wireless Communication Technology
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 Title & Authors
A 2-D Location Determination Model of Buried Persons in Collapsed Shape using Optimal Wireless Communication Technology
Moon, Hyoun-Seok; Lee, Woo-Sik; Lee, Gun-Woo; Han, Dong-Soo;
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When the disaster like earthquake in urban area occur, due to the collapse accidents for subway, tunnel space with buildings or underground area, enormous property and human damage are happened. Specially, since it is difficult to identify survived status of humans within collapsed debris and accurately buried locations of the humans, inputs of considerable time and manpower for rescuing them are required. Besides, secondary damage can be occurred by additional collapses. The aim of this study is to propose a stochastic location positioning method that enables to provide aid information by determining locations of mobile devices for buried persons in 2-D plane using wireless communication technologies. This study selected a detection method for buried persons based on Wi-Fi signal, and identified characteristics of signal strengths by distance unit. Using these methods, a stochastic location detection model in 2-D plane was built. It is expected that this technology will be utilized as a core technology that can protects safety and human life of the public by providing data for rescuing quickly buried persons in cases of national disasters for future.
Wi-Fi;Bluetooth;Buried Person Detection;Collapsed Area;Correlation;
 Cited by
도심지 붕괴사고에 따른 매몰지역 생명선 시공기술 평가,유병현;강재모;이장근;김영삼;주낙봉;

한국지반환경공학회 논문집, 2016. vol.17. 9, pp.47-52 crossref(new window)
H. S., Moon, C. Y., Kim, and W. S., Lee, "Wireless Communication-based Buried Person Detection Considering Characteristics of Collapsed Surface in Disaster Area", Proc. of 2015 Civil Expo & Conference, pp. 00-00, Nov. 2015

S. H., Kim, and D. S., Han, "A study on constructing WiFi radio map by walking survey", Proc. of Korea Intelligent Transport System, pp. 155-158, 2013

D. S., Han, and S. H. Jeong, "Global Indoor Locating and Integrated Indoor/outdoor Navigation System", The Korean Institute of Communications and Information Sciences (Information and Communication), 32(2), pp. 89-97, 2015

Google Indoor Map, [cited 2015 Oct. 10], Available From: Oct. 10, 2015)

H. M., Kong, T. K., Sung, and Y. M., Kwon, "Comparison of TDOA Location Algorithms for Indoor UWB Positioning", Journal of the Institute of Electronic Engineers of Korea (Telecommunications), 42(1), pp. 9-15, 2005

S. Rosati, K. Kruzelecki, L. Traynard, and B. Rimoldi, "Speed-aware routing for uav ad-hoc networks," IEEE GLOBECOM 2013, 4th International IEEE Workshop on Wireless Networking &Control for Unmanned Autonomous Vehicles: Architectures, Protocols and Applications, 2013

X. L., Yang, Y., Li, S. S., Shin, Y., Xia, G. B., Kim, and H. Y., Bae, "The Research of indoor Location Detection Method in Sparse Wi-Fi Environment", Journal of Korean Institute of Next Generation Computing, 7(1), pp. 27-36, 2011

I. H., Jeong, C. M., Kim, Y. S., Choi, S. B., Kim, and Y., Lee, "A study of Establishment on Radiomap that Utilizes the Mobile device Indoor Positioning DB based on Wi-Fi", Journal of The Korean Society for Geospatial Information System", 22(3), pp.57-69, 2014 crossref(new window)

Attractive Indoor Navigation Techniques, What kinds of the techniques,, 2015

Virtualbuilders, 3D Indoor GIS Development and Utilization Techniques,, 2013

Bloter, News of Location Positioning as a Service by SKT, Beacon Service Start-up,, 2015

D. K., Kim, "Wi-Fi based Indoor Positioning Techniques", ETRI, 2015

I. Y., Kong, and H. J., Kim, "Experiments and its analysis on the identification of Indoor Location by Visible Light Communication using LED lights", The journal of the Korea Institute of Maritime Information & Communication Sciences. 15(5), pp. 1045-1052

Bytelight., 2015