A new approach to minimize the loss of life after natural hazards by using Android operating system

被引:0
作者
Emre Avuçlu
Fatih Başçiftçi
机构
[1] Aksaray University,Department of Computer Technology and Computer Programming, Technical Science Vocational High School
[2] Selçuk University,Department of Computer Engineering, Technology Faculty
来源
Natural Hazards | 2018年 / 90卷
关键词
Smartphones; Android; Earthquake; Debris; Finding the missing people; GPS; Mobile programming;
D O I
暂无
中图分类号
学科分类号
摘要
Nowadays, the usage rates of smartphones are increasing rapidly. With the versatility of its features, smartphones have succeeded in attracting users. Performing this study has also affected the usage rate of smartphones every day. It is possible to determine the position with GPS (Global Positioning System) technology which is located in smartphones. In this study, smartphone location notification was used to detect the locations of the people who were under debris after the earthquake by means of the phones on them. People who cannot be reached for any reason will be immediately identified, and emergency interventions will be possible. Thus, the survival rate of the injured will be high with early intervention. In this study, it was aimed to minimize the loss of life after the earthquake and all the negativities that would be experienced in society due to this loss. The developed application has been tested in the external world, and the obtained data are given in results section.
引用
收藏
页码:1005 / 1016
页数:11
相关论文
共 74 条
[1]  
Aoyama Y(2016)Observations of vertical tidal motions of a floating iceberg in front of Shirase Glacier, East Antarctica, using a geodetic-mode GPS buoy Polar Sci 10 132-139
[2]  
Kim T(2003)Sagaing fault slip and deformation in Myanmar observed by continuous GPS measurements KSCE J Civil Eng 108 56-63
[3]  
Doi K(2015)Deep coseismic slip of the 2008 Wenchuan earthquake inferred from Joint inversion of fault stress changes and GPS surface displacements J Geodyn 87 1-12
[4]  
Hayakawa H(2016)Determining structural route components from GPS traces Transp Res 90 156-171
[5]  
Higashi T(2001)Integrating GIS, GPS, and GSM technologies for the effective management of ambulances Environ Urban Syst 25 267-278
[6]  
Ohsono S(2015)Coseismic and postseismic deformation estimation of the 2011 Tohoku earthquake in Kanto Region, Japan, using InSAR time series analysis and GPS Remote Sens Environ 168 74-387
[7]  
Shibuya K(2016)Kinematics of a giant slow-moving landslide in Northwest China: constraints from high resolution remote sensing imagery and GPS monitoring J Asian Earth Sci 123 34-46
[8]  
Aung P(2003)GIS in the world trade center attack-trial by fire Environ Urban Syst 27 571-583
[9]  
Satirapod C(2014)The impact of the 2011 Tohoku earthquake tsunami disaster and implications to the reconstruction Soils Found 54 560-572
[10]  
Andrei C(2005)Vegetation recovery monitoring and assessment at landslides caused by earthquake in Central Taiwan For Ecol Manage 210 55-66
12345678