Validation of Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling (LAIMC)

  • Multi-instrument Space-Borne Observations and Validation of the Physical Model of the Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling (ISSI)
  • ISSI project LAIMC - technical meeting (by invitation only)
  • Earthquakes Short-term Prediction and time-Dependent Assessment of Seismic Hazard (t-DASH) (co-organized) (EGU 2015)

    Ouzounov et al. Presentation at the EGU General Assembly Vienna 2015 Prospective validation of pre-earthquake atmospheric signals and their potential for short–term earthquake forecasting
    from Space Research Institute, Russian Academy of Sciences

  • International Workshop on Earthquake Preparation Process (IWEP2) | Report (EPSJ Newsletter Vol.1)
  • Physical bases of the generation of short-term earthquake precursors: A complex model of ionization-induced geophysical processes in the lithosphere-atmosphere-ionosphere-magnetosphere system (Geomagnetism and Aeronomy)
  • Testing geospace technologies for alerting large earthquakes: An integrated approach of space and ground observations
  • Geo space observation of natural and anthropogenic processes (International Conference and Exhibition on Satellite)

  • News
  • 5 new international teams selected for 2015 2015/06/16
    The Science Committee has selected five excellent international teams for 2015 to come to ISSI-BJ within the next two years to carry out a research project. The proposals were submitted, following the Annual Call jointly issued by ISSI-BJ and the International Space Science Institute (ISSI) in January 2015. The Science Committee of ISSI-BJ and ISSI evaluated, prioritized and recommended the most outstanding proposals to ISSI-BJ. The teams will cover different disciplines of Space Science, namely Plasma Physics, Solar Physics, Planetary science and Earth Science, with the following topics:
    - Analysis of Persistent Regional Air Pollution in Asia
    - Pulsating Aurora as a Manifestation of Non-linear Wave Particle
    - Magnetohydrodynamic Seismology of the Solar Corona in the Era of SDO/AIA
    - Validation of Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling (LAIMC)
    - Astrobiology in the New Age
    The Teams are composed of about 8-15 scientists of different laboratories, nationalities and expertise. These small groups of scientists involved in Space Research can work together in an efficient and flexible format of several subsequent meetings, during which data are analyzed and compared with theories and models. Usually, they hold a series of two to three one-week meetings over a period of 12 to 18 months.
    The aim of Teams is to carry out a research project leading to publications in scientific journals. The activity is directed and organized by a team leader who is also the initiator of the proposal to ISSI-BJ. Although in close contact with the scientific staff of the Institute, teams are largely autonomous in the execution of their project.
  • International Teams
    Teams are composed of about 8-15 scientists of different laboratories, nationalities and expertise. They hold a series of two to three one-week meetings over a period of 12 to 18 months.
    These small groups of scientists involved in Space Research can work together in an efficient and flexible format of several subsequent meetings, during which data are analyzed and compared with theories and models.
    The aim of Teams is to carry out a research project leading to publications in scientific journals. The activity is directed and organized by a team leader who is also the initiator of the proposal to ISSI. Though in close contact with the scientific staff of the Institute, teams are largely autonomous in the execution of their project. Teams are set up in response to an Annual Call by ISSI. Proposals are evaluated and prioritized by the Science Committee.
    Ouzounov D. (US) & Zhang X. (CN): Validation of Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling (LAIMC)
    Validation of Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling (LAIMC) as a Concept for Geospheres Interaction by Utilizing Space-Borne Multi-Instrument Observations
  • Meeting of the ISSI LAIMC Team (by invitation only) | Short-term Earthquakes Forecast (StEF) and multi-parametric time-Dependent Assessment of Seismic Hazard (t-DASH) (co-organized) (EGU 2016)

  • IWEP3

  • The 2nd CSES workshop | EMSEV2016

  • 预测所牵头的ISSI-BJ项目“LAIC耦合机理研究”第二次会议在京成功召开
     2016年8月22日,国际研究团队"岩石层-大气层-电离层-磁层耦合(Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling)研究"成员在中国科学院国家空间科学中心国际空间科学研究所北京分部(International Space Science Insitute-Beijing)组织召开第二次项目学术交流会议。该项目分别由美国查普曼大学的迪米特·奥佐诺夫教授负责国际团队、中国地震局地震预测研究所张学民研究员负责中方团队的协作任务,于2015年4月正式通过ISSI-BJ中心论证确立。
     会议由奥佐诺夫和张学民教授主持,项目小组成员共13人参加了本次会议,其中包括来自美国、意大利和日本的国际专家团队,以及中国大陆和中国台湾的项目成员及青年科学工作者代表。会上国际团队成员分别就圈层耦合机理的发展现状、基于电磁卫星数据、GPS-TEC、地面电磁、红外等多手段的地震异常综合分析、闪电信号与地震孕育发展的关联等各个领域的阶段性研究成果进行了汇报,中方人员讲述了国内在利用地面电磁探测研究地震前兆异常,不同探测技术获得的参量同步扰动信号、同震及震后电离层扰动、地震电离层耦合模型研究等方面的最新进展。围绕报告内容,小组成员们进行了热烈的交流讨论,进一步确认在圈层耦合机理中多参量综合分析论证的重要性以及目前理论模型与实际观测两者之间存在的主要差距和问题,会议最后讨论制定了ISSI-BJ项目的次年计划安排,对未来工作任务进行了明确分工。
     ISSI-BJ分部为参与本项目的中外学者搭建了学术交流和科研合作的平台,通过本次会议,小组成员进一步加深了对岩石层-大气层-电离层-磁层耦合机制的认识,未来将进一步加强不同参量之间的对比及关联分析,推动与地震等自然灾害相关的圈层电磁耦合机理的研究。

  • The 19th CEReS Symposium on Environmental Remote Sensing
    Statistical Study of Receiver Operating Characteristic Curve on Seismo-Ionospheric Precursors of the Total Electron Content Associated with Large Earthquakes in Japan
    Tiger Jann-Yenq Liu(National Central University)・服部克巳・Dimitar Ouzounov・Yuh-Ing Chen・Cheng-Yan Liu

    衛星リモートセンシングと短期地震予測
    服部克巳(千葉大学・理学研究科)

    適切な雲除去を用いたMODISによる地震に関連する温度異常の検知に関する研究
    高新茹(千葉大学・理学部地球科学科)・Nicola Genzano・ Valerio Tramutoli・服部克巳

    TIR anomaly possibly related to the large earthquake using MT-SAT data
    Nicola Genzano(University of Basilicata)・Valerio Tramutoli・Katsumi Hattori
  • Multi-Hazard Early Warning Conference
    Testing new technologies for short-term warnings of large earthquake events. The development of Seismic Forecasting
    Dimitar Ouzounov, Garry de la Pomerai, Sergey Pulinets, Katsumi Hattori
  • IWEP4

  • IAG-IASPEI2017
    S11 Geo & space technologies to study pre–earthquake processes: Observation, modeling, forecasting
    Convener: Dimitar Ouzounov (Center of Excellence in Earth Systems Modeling & Observations (CEESMO), Chapman University, USA) Co-convener: Katsumi Hattori (Department of Earth Sciences, Chiba University, Japan), J.Y Liu (Institute of Space science, National Central University, Taiwan), Masao Nakatani (Earthquake Research Institute, the University of Tokyo, Japan)

    S12 An interdisciplinary approach towards earthquake prediction studies
    Convener: Dimitar Ouzounov (Chapman University, Orange, USA) Co-convener: S. Pulinets (Space Research Institute, RAS, Russia), Katsumi Hattori (Department of Earth Sciences, Chiba University, Japan), J.Y. Liu (Institute of Space science, National Central University, Taiwan), Q. Huang (Department of Geophysics, Peking University, China)
  • ISSI/ISSI-BJ Joint Call for Proposals 2017 for International Teams
    1. Space Sciences (Magnetospheric and Space Plasma Physics, Solar-Terrestrial Sciences, Solar and Heliospheric Physics, Planetary Sciences, Astrobiology, Cosmology, Astrophysics, and Fundamental Physics in Space)

    2. Earth Sciences using space data

  • Link
  • Validation of Lithosphere-Atmosphere-Ionosphere-Magnetosphere Coupling (LAIMC) as a Concept for Geospheres Interaction by Utilizing Space-Borne Multi-Instrument Observations
  • International Space Science Institute - Beijing
  • APSCO Seismo-Electromagnetic Project

  • [ISSI | Pre-Earthquakes | VESTO | EMSEV]