«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

j.hndz.2020.04.06]
点击复制

地震应急自动触发计算产出历史地震活动性资料及前兆观测信息的研究()

分享到：

华南地震[ISSN:1006-6977/CN:61-1281/TN]

卷:: 40
期数:: 2020年04期

页码:: 42-48

栏目:: 地震研究

出版日期:: 2020-12-30

文章信息/Info

Title:: Research on the Automatic Triggering of Historical Seismicity Data and Precursory Observation Information in Earthquake Emergency

文章编号:: 1001-8662（2020）04-0042-07

作者:: 洪旭瑜; 林苗禄; 关玉梅; 李强; 福建省地震局,福州 350003

Author(s):: HONG Xuyu; LIN Miaolu; GUAN Yumei; LI Qiang; Fujian Earthquake Agency,Fuzhou 350003,China

关键词:: 地震应急; 自动触发; 测震资料; 前兆观测资料

Keywords:: Earthquake emergency; Automatic triggering; Seismic data; Precursory observation data

分类号:: P315

DOI:: 10.13512/j.hndz.2020.04.06

文献标志码:: A

摘要:: 地震应急会商时历史地震活动性及前兆观测资料产品产出虽然有专业的处理软件,但主要还是依靠人工操作,震后应急会商资料产出耗费大量时间,产出资料存在遗漏不完整、不规范,没有形成统一的标准化产出结果。经过连续几年地震应急会商资料的实际处理,依托编程、数据库及实时融合等实现定制需求包括自动产出规范化、标准化的地震应急会商资料的技术已经比较成熟。以产出福建地震应急会商资料为例,基于MATLAB在算法、数据分析、数值计算和JAVA在可视化方面的各自优势,依托地震速报信息系统（EQIM）和结构化及设计规范化的分布式前兆ORACLE数据库,实现自动触发快速生成规范化的地震应急会商资料。

Abstract:: Although there were professional processing software for historical seismicity and precursory observation data output during the earthquake emergency consultation,it mainly depended on manual operation. The output of emergency consultation data took a lot of time,and the output data was incomplete and nonstandard,which didn’t form a unified standardized output result. After several years of practical processing of earthquake emergency consultation data, the technology that relies on advanced programming,database and real-time fusion to achieve customized requirements including automatic production of standardized and standardized earthquake emergency consultation data has been relatively mature. Based on the advantages of MATLAB in algorithm,data analysis,numerical calculation and Java in visualization,and relying on the structured and standardized distributed Oracle database and earthquake quick report information system (EQIM),the paper took Fujian earthquake emergency consultation data as an example to automatically trigger and quickly form standardized earthquake emergency consultation data.

参考文献/References:

[1]卢利农,祝忠明,张旺强,等.基于科研人员本体的知识产出自动获取方法与技术研究[J].图书与情报,2014(01)：89-95.
[2]曾筝.基于云计算的数据库技术及其应用实践解析[J].数字通信世界,2018(08)：174.
[3]谈云骏,郝敏.基于MatlabGUI的统计过程控制软件设计[J].工业控制计算机,2018,31(10)：118-120+139.
[4]林岩钊,肖健,叶晓明.基于地震烈度速报产出的自动出图平台设计[J].黑龙江科技信息,2016(26)：153.
[5]张博.基于MATLAB的地震会商资料自动产出系统[J].国际地震动态,2017(08)：103-104.
[6]刘坚,李盛乐,戴苗,等.大震应急与科学产品的自动产出——以巴东5.1级地震为例[J].大地测量与地球动力学,2014,34(03)：55-58.
[7]陈军章,葛洪央.JAVA技术的现状和发展方向浅论[J].中国西部科技,2006(24)：51-53.
[8]胡克坚.震中距计算方法使用范围的讨论[J].地震学刊,1987(01)：33-38+83.
[9]蒋骏,李胜乐,张雁滨,等.地震前兆信息处理与软件系统[M].北京：地震出版社,2000.
[10]周克昌,赵刚,王晨,等.中国地震前兆台网观测技术系统整合[J].中国地震,2013,29(02)：270-275.
[11]周克昌,蒋春花,纪寿文,等.地震前兆数据库系统设计[J].地震,2010,30(02)：143-151.

相似文献/References:

[1]李金香,常想德,姚　远,等.无人机技术在新疆塔县地震的应用及实现[J].华南地震,2019,39(03):57.[doi:10.13512/j.hndz.2019.03.008]
　LI Jinxiang,CHANG Xiangde,YAO Yuan,et al.Application and Realization of UAV Technology in the Earthquake of Tajik Autonomous County of Taxkorgan, Xinjiang[J].,2019,39(04):57.[doi:10.13512/j.hndz.2019.03.008]
[2]何　霆,陈修吾.多渠道地震应急指挥信息发布关键技术研究与实现[J].华南地震,2019,39(03):109.[doi:10.13512/j.hndz.2019.03.016]
　HE Ting,CHEN Xiuwu.Research and Implementation of Key Technologies for Multi-channel Earthquake Emergency Command Information Release[J].,2019,39(04):109.[doi:10.13512/j.hndz.2019.03.016]
[3]邓树荣,郑川,余庆坤,等.云南地震应急救援物资储备特点与流调分析[J].华南地震,2021,41(04):47.[doi:10.13512/j.hndz.2021.04.06]
　DENG Shurong,ZHENG Chuan,YU Qingkun,et al.Analysis of the Characteristics and Allocation of Material Reserve in Yunnan Earthquake Emergency Rescue[J].,2021,41(04):47.[doi:10.13512/j.hndz.2021.04.06]
[4]潘国勇,王军,毕波,等.论华东片区流动测震台网演练——以上海市地震局为例[J].华南地震,2022,(01):61.[doi:10.13512/j.hndz.2022.01.09]
　PAN Guoyong,WANG Jun,BI BO,et al.Discussion on Mobile Seismic Network Drilling in East China ：A Case Study of the Shanghai Earthquake Agency[J].,2022,(04):61.[doi:10.13512/j.hndz.2022.01.09]
[5]王琳,杨天青,邱鹏,等.基于支持向量机回归多属性在地震应急决策中的应用探讨[J].华南地震,2022,(02):41.[doi:10.13512/j.hndz.2022.02.06]
　WANG Lin,YANG Tianqing,QIU Peng,et al.Application of Multi-attribute Regression Based on Support Vector Machine in Earthquake Emergency Decision Making[J].,2022,(04):41.[doi:10.13512/j.hndz.2022.02.06]
[6]吴嘉贤,伍国春.公众需求视角下地震应急科普宣传的实践探索——以2023年河源4.3级地震为例[J].华南地震,2023,(04):156.[doi:10.13512/j.hndz.2023.04.20]
　WU Jiaxian,WU Guochun.Practical Exploration of Earthquake Emergency Science Popularization from the Perspective of Public Demand—Taking the Heyuan M4.3 Earthquake in 2023 as an Example[J].,2023,(04):156.[doi:10.13512/j.hndz.2023.04.20]
[7]王悦,张露露,黄凤,等.四川地震应急信息共享服务系统在芦山6.1级地震中的应用与启示[J].华南地震,2024,(01):91.[doi:10.13512/j.hndz.2024.01.10]
　WANG Yue,ZHANG Lulu,HUANG Feng,et al.Application of Sichuan Earthquake Emergency Information Sharing Service System in Lushan M6.1 Earthquake and Its Inspiration[J].,2024,(04):91.[doi:10.13512/j.hndz.2024.01.10]
[8]马蕴玢,赵士达,杨朝,等.天津市地震局应急视频会议系统组网研究[J].华南地震,2024,(01):100.[doi:10.13512/j.hndz.2024.01.11]
　MA Yunbin,ZHAO Shida,YANG Zhao,et al.Research on Networking of Tianjin Earthquake Agency Emergency Video Conference System[J].,2024,(04):100.[doi:10.13512/j.hndz.2024.01.11]

备注/Memo

备注/Memo:: 收稿日期: 2020-05-15
基金项目:中国地震局监测、预报、科研三结合课题（3JH-202001046）;福建省地震局青年科技基金（Y201907）
作者简介:洪旭瑜（1987- ）,男,硕士,主要从事地球物理台网及数据跟踪分析研究工作
E-mail: hongxuyu@126.com

常用功能

工具/Tools

统计/Statistics

摘要浏览/Viewed264
全文下载/Downloads288
评论/Comments

更新日期/Last Update: 2020-12-20