LOC‐FLOW: An end‐to‐end machine learning‐based high‐precision earthquake location workflow
The ever‐increasing networks and quantity of seismic data drive the need for seamless and
automatic workflows for rapid and accurate earthquake detection and location. In recent …
automatic workflows for rapid and accurate earthquake detection and location. In recent …
Seismic arrival-time picking on distributed acoustic sensing data using semi-supervised learning
Abstract Distributed Acoustic Sensing (DAS) is an emerging technology for earthquake
monitoring and subsurface imaging. However, its distinct characteristics, such as unknown …
monitoring and subsurface imaging. However, its distinct characteristics, such as unknown …
[HTML][HTML] 基于深度学习震相拾取和密集台阵数据构建青海玛多MS7.4地震震源区高分辨率地震目录
郭慧丽, 常利军, 鲁来玉, 吴萍萍, 吕苗苗, 丁志峰 - 地球物理学报, 2022 - dsjyj.com.cn
高分辨率地震目录有助于描绘断层的精细结构和认识发震断裂的构造形态及发震机制.
基于玛多地震科考布设的短周期台阵数据, 本文利用深度学习自动拾取P/S 波震相, 震相关联 …
基于玛多地震科考布设的短周期台阵数据, 本文利用深度学习自动拾取P/S 波震相, 震相关联 …
Multistage Nucleation of the 2021 Yangbi MS 6.4 Earthquake, Yunnan, China and Its Foreshocks
Abstract On 21 May 2021, an MS 6.4 earthquake occurred in Yangbi, Yunnan province,
China. A significant foreshock sequence occurred 3 days before the mainshock, which …
China. A significant foreshock sequence occurred 3 days before the mainshock, which …
The cascading foreshock sequence of the Ms 6.4 Yangbi earthquake in Yunnan, China
Foreshocks may provide valuable information on the nucleation process of large
earthquakes. The 2021 Ms 6.4 Yangbi, Yunnan, China, earthquake was preceded by …
earthquakes. The 2021 Ms 6.4 Yangbi, Yunnan, China, earthquake was preceded by …
[HTML][HTML] A summary of seismic activities in and around China in 2021
Y Han, Y Zang, L Meng, Y Wang, S Deng, Y Ma… - Earthquake Research …, 2022 - Elsevier
In this article, we review the general characteristics of seismicity in and around China and
the overall statistics of earthquake damage in 2021, focusing on several significant events …
the overall statistics of earthquake damage in 2021, focusing on several significant events …
[HTML][HTML] 2021年5月21日云南漾濞MS6.4地震序列地震矩张量及发震构造
刘俊清, 甘卫军, 王光明, 王忠礼, 张宇, 蔡宏雷… - 地球物理学报, 2021 - html.rhhz.net
2021 年5 月21 日云南大理州漾濞县发生了MS 6.4 地震. 我们利用区域地震台网记录的地震
波形资料, 首先采用多点源地震矩张量反演方法确定了漾濞地震序列中3 次MS≥ 5.0 …
波形资料, 首先采用多点源地震矩张量反演方法确定了漾濞地震序列中3 次MS≥ 5.0 …
Short‐Term Foreshock and Aftershock Patterns of the 2021 6.4 Yangbi Earthquake Sequence
Y Zhang, Y An, F Long, G Zhu… - Seismological …, 2022 - pubs.geoscienceworld.org
An M s 6.4 earthquake struck Yangbi County in western Yunnan province, China, on 21 May
2021, causing damage in the nearby region. Intensive foreshock activity started three days …
2021, causing damage in the nearby region. Intensive foreshock activity started three days …
[HTML][HTML] 青藏高原东南缘地壳速度结构及云南漾濞MS6.4地震深部孕震环境
高家乙, 李永华, 王志铄, 张扬, 贾漯昭, 李大虎 - 地球物理学报, 2022 - dsjyj.com.cn
青藏高原东南缘岩石圈变形强烈, 地震活动频繁, 对其深部结构进行研究有助于提高对其演化及
强震发震机理等问题的认识. 本研究利用青藏东南缘固定和流动观测台站记录的地震P …
强震发震机理等问题的认识. 本研究利用青藏东南缘固定和流动观测台站记录的地震P …
[HTML][HTML] 2021 年5 月21 日云南漾濞6.4 级地震序列重定位及震源机制研究
王月, 胡少乾, 何骁慧, 郭凯, 解孟雨, 邓世广, 马亚伟 - 地球物理学报, 2021 - html.rhhz.net
2021 年5 月21 日21 时, 云南省大理州漾濞县先后发生MS 5.6 和MS 6.4 地震,
两次地震震中位置相距约7 km, 均位于滇西地区, 该地区地处青藏高原东南缘, 南北地震带南段 …
两次地震震中位置相距约7 km, 均位于滇西地区, 该地区地处青藏高原东南缘, 南北地震带南段 …