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    • 2. 发明授权
    • 임시 지진관측소의 설치위치를 설정하는 위치 설정앱이 탑재된 휴대용 단말기 및 위치 설정앱을 이용한 임시 지진관측소의 위치설정방법
    • 具有位置临时地震观测位置的定位装置和使用定位APP定位临时地震的定位方法的便携式装置
    • KR101403497B1
    • 2014-06-09
    • KR1020130064870
    • 2013-06-05
    • 한국지질자원연구원
    • 박정호임인섭지헌철
    • G01V1/20H04W4/02H04W88/02
    • The present invention relates to a portable terminal loaded with a location setting application to set a location to install a temporary seismological observatory on an optimized location in every predetermined radius from the earthquake center using the location setting application, and a method to set a location of the seismological observatory. The portable terminal loaded with a location setting application to set the location to install a temporary seismological observatory includes: a location setting application run-time module loaded to each of a plurality of portable terminals and runs the application to set a location to install a temporary seismological observatory on a location; an earthquake center information receiving module receiving the information on the earthquake center transmitted from a server of a meteorological office or a seismological center; an earthquake center display module which implements a map screen based on the received information of the earthquake center, and displays a location of the earthquake center on a map screen; a location information setting module which divides a plurality of regions from the location of the earthquake center in a predetermined radius on an interval and sets a potential location to install a temporary seismological observatory from the divided region; a GPS module which receives a GPS signal and obtains information on the location where a user is currently located; and a location information selection module which selects a location from the temporary seismological observatory installation locations set by the location information setting module.
    • 本发明涉及一种装有位置设定应用程序的便携式终端,该位置设置应用程序用于使用位置设置应用从地震中心在每个预定半径的优化位置设置临时地震观测台的位置,以及一种设置位置设置方法 地震观测台。 装载有位置设置应用程序以设置安装临时地震观测站的位置的便携式终端包括:位置设置应用程序运行时模块,其加载到多个便携式终端中的每一个并运行应用程序以设置位置以安装临时地 位置上的地震观测台; 地震中心信息接收模块,接收从气象局或地震中心的服务器发送的地震中心信息; 地震中心显示模块,其基于接收到的地震中心的信息实现地图画面,并在地图画面上显示地震中心的位置; 位置信息设定模块,其以区间从规定的半径将所述多个区域与所述地震中心的位置分开,并且设定从所述分割区域安装临时地震观测台的潜在位置; GPS模块,其接收GPS信号并获取关于用户当前所在位置的信息; 以及位置信息选择模块,其从由位置信息设定模块设定的临时地震观测台安装位置选择位置。
    • 7. 发明授权
    • 소규모 배열식 지진계를 이용한 근거리 지하발파 감지 방법
    • 使用小规模地震阵列监测短距离地下爆破的方法
    • KR101672845B1
    • 2016-11-04
    • KR1020150073949
    • 2015-05-27
    • 한국지질자원연구원
    • 지헌철신인철박정호윤여웅
    • G01V1/28G01V1/30G01V1/20
    • 본발명은근거리내에서발생한발파지진을지진파를이용하여구분하여감지하며지진파를이용하여지하발파지진이발생한위치를추적할수 있는근거리내의지하발파를감지하기위한방법에관한것이다. 본발명은소규모배열식지진계를이용한근거리지하발파감지방법에있어서, (a) 상기배열식지진계들이실시간으로지진파데이터를수집하는단계, (b) 상기수집된지진파데이터로부터수직(up/down)성분의 P파를추출하는단계, (c) 상기추출된 P파들이발파량을추정할수 있는이벤트인지연관성을결정하는단계, (d) 상기연관된다고결정된 P파들을이용해서진원을결정하는단계, (e) 근거리발파여부의판단을위해서상기추출된 P파들을세그먼트화하는단계, (f) 상기세그먼트된 P파들을상호 cross-correlation하고그 평균을구하는단계, (g)상기평균이소정의문턱값이상인지여부를결정하는단계, (h) 만약상기평균이상기소정의문턱값미만이면 (b)단계로되돌아가고, 그렇지않은경우라면수집된지진파데이터의최대진폭및 주기를계산하는단계, (i) 상기최대진폭및 주기를이용해서지진규모(mb)를계산하는단계및 (j) 상기지진규모에대응하는발파량을계산하는단계를포함하며, 지역을근거리로한정한후, 그안에최소 4개의가속도지진계를설치하여인공지진과자연지진을구분할수 있으며, 지하발파가발생한지역의지하발파의지진규모를계산하고지하발파를일으키기위해사용된발파량을계산하며지진요소및 진원시를계산할수 있는효과가있다.
    • 8. 发明授权
    • 트리거된 관측소의 공간적 분포와 방향의 치우침을 고려한 지진 조기경보 시스템의 오경보 식별장치 및 그 방법
    • 用于地震质量因子的触发式空间分布密度和AZIMUTHAL偏差的地震警报系统的伪报警器
    • KR101391226B1
    • 2014-05-07
    • KR1020140031097
    • 2014-03-17
    • 한국지질자원연구원
    • 지헌철박정호임인섭김영채정병선성윤정
    • G08B21/10G08B29/18G01V1/28
    • G08B21/10G01V1/28G08B29/18
    • The present invention relates to an earthquake early warning system, more particularly, to a false-alarm discriminator of an earthquake early warning system considering the spatial distribution and azimuthal bias of a triggered station by applying a reliability weighting factor to all the stations, calculating the spatial distribution density and azimuthal bias based on the information provided from a triggered station among the stations and comparing the data with a predetermined threshold value and a method thereof. For the purpose, the present invention includes: a communication unit for receiving earthquake information from at least one station which detects a seismic wave; a first calculation unit for calculating the spatial distribution density by receiving the earthquake information and updating the spatial distribution density with a predetermined time interval; a second calculation unit for calculating the azimuthal bias by receiving the earthquake information and updating the azimuthal bias with a predetermined time interval; a comparison unit for comparing the spatial distribution density and azimuthal bias with prestored threshold values, respectively; and a confirmation unit for generating earthquake confirmation information by determining the compared result of the comparison unit as an earthquake if the compared result is at least the prestored threshold value. The earthquake wave is a p-wave and the earthquake confirmation information is transmitted to the outside through the communication unit.
    • 地震预警系统技术领域本发明涉及一种地震预警系统,特别涉及一种考虑到所有台站的可靠性加权因子考虑到触发站的空间分布和方位偏差的地震预警系统的误报警鉴别器, 基于从站之间的触发站提供的信息并将数据与预定阈值进行比较的空间分布密度和方位偏差及其方法。 为此,本发明包括:用于从至少一个检测地震波的站接收地震信息的通信单元; 第一计算单元,用于通过接收地震信息并以预定的时间间隔更新空间分布密度来计算空间分布密度; 第二计算单元,用于通过接收地震信息并以预定时间间隔更新方位角偏差来计​​算方位角偏差; 用于将空间分布密度和方位偏差与预先存储的阈值进行比较的比较单元; 以及确认单元,用于通过如果比较结果至少是预先存储的阈值,则通过确定比较单元作为地震的比较结果来产生地震确认信息。 地震波是p波,地震确认信息通过通信单元发送到外部。