学校|图书馆
统一认证登录 | 登录 | English| RSS Feeds | Atom Feeds
中文版 | English
   注册
个人简历
科研成果
统计分析
访问统计
月访问量

0

  • 内部: 0

  • 外部: 0

  • 国内: 0

  • 国外: 0

年访问量

4

  • 内部: 0

  • 外部: 4

  • 国内: 3

  • 国外: 1

总访问量

19

  • 内部: 2

  • 外部: 17

  • 国内: 13

  • 国外: 6

访问量
访问量
1. The Weitin Fault, Papua New Guinea, Ruptured Twice by M-w 8.0 and .. [29]
2. Cascading and pulse-like ruptures during the 2019 Ridgecrest earth.. [23]
3. Phase unmixing of TerraSAR-X staring spotlight interferograms in b.. [14]
4. Rapid Tsunami Potential Assessment Using GNSS Ionospheric Disturba.. [11]
5. Overall subshear but locally supershear rupture of the 2021 Mw 7.4.. [10]
6. Toward Location-Enabled IoT (LE-IoT): IoT Positioning Techniques, .. [9]
7. High-resolution landslide mapping and susceptibility assessment: L.. [9]
8. Kinematics and Dynamics of the 24 January 2020 Mw 6.7 Elazig, Turk.. [8]
9. A weighted mean temperature model with nonlinear elevation correct.. [7]
10. Heavy rainfall drives slow-moving landslide in Mazhe Village, Ensh.. [6]
11. A Dynamic-Rupture Model of the 2019 Mw 7.1 Ridgecrest Earthquake .. [5]
12. Slip Model of the 2022 Mw 6.6 Luding Earthquake from Inversion of .. [5]
13. A novel GNSS and precipitation-based integrated drought characteri.. [5]
14. Improving estimates of ocean tide loading displacements with multi.. [4]
15. The 2021 M-w 7.4 Madoi Earthquake: An Archetype Bilateral Slip-Pul.. [4]
16. 北斗三号与超高频GNSS同震形变监测:以2021年青海玛多Mw 7.4地震为例 [4]
17. A Comprehensive Analysis of Environmental Loading Effects on Verti.. [4]
18. Detecting slow slip events in the Cascadia subduction zone from GN.. [4]
19. On the Potential of Rapid Moment Magnitude Estimation for Strong E.. [3]
20. Potential Contributors to CME and Optimal Noise Model Analysis in .. [3]
21. Bayesian Inversion of Finite-Fault Earthquake Slip Model Using Geo.. [3]
22. Using the Global Navigation Satellite System and Precipitation Dat.. [3]
23. 贝叶斯有限断层破裂分布模型反演研究进展 [3]
24. 基于GPS观测数据的2022年1月15日汤加火山电离层扰动特征分析 [3]
25. Simultaneous magnitude and slip distribution characterization from.. [3]
26. The 2023 Mw 6.8 Morocco Earthquake: A Lower Crust Event Triggered .. [3]
27. Super-shear ruptures steered by pre-stress heterogeneities during .. [3]
28. Subsidence detection in southwest Guangdong–Hong Kong–Macao Grea.. [3]
29. Complex strike-slip faulting during the 2021 Mw7.4 Maduo earthquak.. [2]
30. Characterizing hydrological droughts within three watersheds in Yu.. [2]
31. Facilitated interferometric reflectometry evaluation and its appli.. [2]
32. 基于应变张量的GNSS-InSAR联合估计三维地表形变的改进算法 [1]
33. Using short-interval landslide inventories to build short-term and.. [1]
34. 联合InSAR和高频GNSS位移波形反演2022年青海门源M6.9地震同震破裂过程 [1]
35. Tsunami Genesis of Strike-Slip Earthquakes Revealed in the 2018 In.. [1]
36. Characterizing extreme drought and wetness in Guangdong, China usi.. [1]
37. Ionospheric disturbance analysis of the January 15, 2022 Tonga eru.. [1]
下载量
1. The Weitin Fault, Papua New Guinea, Ruptured Twice by M-w 8.0 and .. [2]