Skip to Main Content
Skip Nav Destination

Multiscale Mapping of Completeness Magnitude of Earthquake Catalogs

Bulletin of the Seismological Society of America (2013) 103 (4): 2188–2202.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
World Seismic Networks and Earthquake Catalogs
Russian Journal of Earth Sciences (2024) 1.
High Resolution Seismicity Smoothing Method for Seismic Hazard Assessment
Russian Journal of Earth Sciences (2024) 1.
Integrated Earthquake Catalog III: Gakkel Ridge, Knipovich Ridge, and Svalbard Archipelago
Applied Sciences (2023) 13 (22): 12422.
Integrated Earthquake Catalog II: The Western Sector of the Russian Arctic
Applied Sciences (2023) 13 (12): 7084.
Predicting the Future Performance of the Planned Seismic Network in Chinese Mainland
Seismological Research Letters (2023) 94 (6): 2698.
Integrated Earthquake Catalog of the Ossetian Sector of the Greater Caucasus
Applied Sciences (2023) 14 (1): 172.
Bayesian estimation of the spatiotemporal evolution of completeness magnitude in the Iranian earthquake catalog
Journal of Seismology (2022) 26 (3): 473.
Strong Earthquake-Prone Areas in the Eastern Sector of the Arctic Zone of the Russian Federation
Applied Sciences (2022) 12 (23): 11990.
Hierarchical Bayesian Modeling for Improved High-Resolution Mapping of the Completeness Magnitude of Earthquake Catalogs
Seismological Research Letters (2022) 93 (4): 2126.
Automatic picking and probabilistic location for earthquake assessment in the Lesser Antilles subduction zone (1972–2012)
Comptes Rendus. Géoscience (2022) 353 (S1): 187.
Modeling and Prediction of Aftershock Activity
Surveys in Geophysics (2022) 43 (2): 437.
Earthquake Productivity Law in a Wide Magnitude Range
Frontiers in Earth Science (2022) 10
A Significant Increase in Interplate Seismicity near Major Historical Earthquakes Offshore Martinique (FWI)
Bulletin of the Seismological Society of America (2021) 111 (6): 3118.
Induced Seismicity Completeness Analysis for Improved Data Mining
Frontiers in Earth Science (2021) 9
The Rise of Earthquake Correlation Range and the Chains of Earthquakes before Large Seismic Events
Izvestiya, Physics of the Solid Earth (2020) 56 (1): 24.
Condition of Occurrence of Large Man-Made Earthquakes in the Zone of Oil Production, Oklahoma
Izvestiya, Physics of the Solid Earth (2020) 56 (6): 911.
Generalized earthquake frequency–magnitude distribution described by asymmetric Laplace mixture modelling
Geophysical Journal International (2019) 219 (2): 1348.
Research on Parameter Calculation for the Ogata–Katsura 1993 Model in Terms of the Frequency–Magnitude Distribution Based on a Data‐Driven Approach
Seismological Research Letters (2019) 90 (3): 1318.
Forecasting Aftershock Activity: 4. Estimating the Maximum Magnitude of Future Aftershocks
Izvestiya, Physics of the Solid Earth (2019) 55 (4): 548.
Forecasting Aftershock Activity: 5. Estimating the Duration of a Hazardous Period
Izvestiya, Physics of the Solid Earth (2019) 55 (5): 719.
Mapping of Interplate Coupling in the Kamchatka Subduction Zone from Variations in the Earthquake Size Distribution
Doklady Earth Sciences (2019) 484 (2): 173.
Performance of the South African National Seismograph Network from October 2012 to February 2017: Spatially varying magnitude completeness
South African Journal of Geology (2019) 122 (1): 57.
Spatiotemporal evolution of the completeness magnitude of the Icelandic earthquake catalogue from 1991 to 2013
Journal of Seismology (2017) 21 (4): 615.
Forecasting aftershock activity: 2. Estimating the area prone to strong aftershocks
Izvestiya, Physics of the Solid Earth (2017) 53 (3): 366.
Long-Delayed Aftershocks in New Zealand and the 2016 M7.8 Kaikoura Earthquake
Pure and Applied Geophysics (2017) 174 (10): 3751.
The Spatial Scale of Detected Seismicity
Pure and Applied Geophysics (2016) 173 (1): 117.
The implications of regional microseismic activities: A lesson from 2008 Ms. 8.0 Wenchuan earthquake
Physics of the Earth and Planetary Interiors (2016) 261: 107.
Water, oceanic fracture zones and the lubrication of subducting plate boundaries—insights from seismicity
Geophysical Journal International (2016) 204 (3): 1405.
FCaZm intelligent recognition system for locating areas prone to strong earthquakes in the Andean and Caucasian mountain belts
Izvestiya, Physics of the Solid Earth (2016) 52 (4): 461.
Forecasting aftershock activity: 1. Adaptive estimates based on the Omori and Gutenberg–Richter laws
Izvestiya, Physics of the Solid Earth (2016) 52 (3): 413.
Break of slope in earthquake size distribution and creep rate along the San Andreas Fault system
Geophysical Research Letters (2016) 43 (13): 6869.
Systematic survey of high‐resolutionbvalue imaging along Californian faults: Inference on asperities
Journal of Geophysical Research: Solid Earth (2014) 119 (3): 2029.
Close Modal

or Create an Account

Close Modal
Close Modal