All Stories

  1. Automated Estimation and Tools to Extract Positions, Velocities, Breaks, and Seasonal Terms From Daily GNSS Measurements: Illuminating Nonlinear Salton Trough Deformation
  2. Thank You to Our 2019 Reviewers
  3. Fracture Advancing Step Tectonics Observed in the Yuha Desert and Ocotillo, CA Following the 2010 Mw 7.2 El Mayor - Cucapah Earthquake
  4. Thank You to Our 2017 Peer Reviewers
  5. UAVSAR and Optical Analysis of the Thomas Fire Scar and Montecito Debris Flows: Case Study of Methods for Disaster Response Using Remote Sensing Products
  6. Spatio-Temporal Mapping of Plate Boundary Faults in California Using Geodetic Imaging
  7. Imaging of earthquake faults using small UAVs as a pathfinder for air and space observations
  8. STRUCTURAL CHARACTERIZATION OF THE SAN JACINTO FAULT FROM HIGH RESOLUTION UAV-BASED IMAGERY AND TOPOGRAPHY AT SAGE BRUSH FLAT, ANZA, CALIFORNIA
  9. Nowcasting earthquakes
  10. Tearing the terroir: Details and implications of surface rupture and deformation from the 24 August 2014M6.0 South Napa earthquake, California
  11. Radar Determination of Fault Slip and Location in Partially Decorrelated Images
  12. GeoGateway: A system for analysis of UAVSAR data products
  13. Geomorphic and geologic controls of geohazards induced by Nepals 2015 Gorkha earthquake
  14. The Virtual Quake earthquake simulator: a simulation-based forecast of the El Mayor-Cucapah region and evidence of predictability in simulated earthquake sequences
  15. Potential for a large earthquake near Los Angeles inferred from the 2014 La Habra earthquake
  16. The 2012 Brawley swarm triggered by injection-induced aseismic slip
  17. Multihazard Simulation and Cyberinfrastructure
  18. Virtual Quake: Statistics, Co-seismic Deformations and Gravity Changes for Driven Earthquake Fault Systems
  19. Forecasting Earthquakes with the Virtual Quake Simulator: Regional and Fault-Partitioned Catalogs
  20. Web Services for Dynamic Coloring of UAVSAR Images
  21. Simulating Gravity Changes in Topologically Realistic Driven Earthquake Fault Systems: First Results
  22. Advantages to Geoscience and Disaster Response from QuakeSim Implementation of Interferometric Radar Maps in a GIS Database System
  23. E-DECIDER: Using Earth Science Data and Modeling Tools to Develop Decision Support for Earthquake Disaster Response
  24. UAVSAR observations of triggered slip on the Imperial, Superstition Hills, and East Elmore Ranch Faults associated with the 2010 M 7.2 El Mayor-Cucapah earthquake
  25. Cloud computing for geodetic imaging data processing, analysis, and modeling
  26. Studying mountain glacier processes using a staring instrument
  27. Earth System Models
  28. High resolution imaging of dynamic surface processes from the ISS
  29. Integrating remotely sensed and ground observations for modeling, analysis, and decision support
  30. Using Service-Based GIS to Support Earthquake Research and Disaster Response
  31. A Distributed Approach to Computational Earthquake Science: Opportunities and Challenges
  32. QuakeSim: Integrated modeling and analysis of geologic and remotely sensed data
  33. Earthquake precursors: activation or quiescence?
  34. Space- and Time-Dependent Probabilities for Earthquake Fault Systems from Numerical Simulations: Feasibility Study and First Results
  35. Space- and Time-Dependent Probabilities for Earthquake Fault Systems from Numerical Simulations: Feasibility Study and First Results
  36. Analysis of emergent fault element behavior in Virtual California
  37. Proceedings of the 6th ACES Symposium, May 11-16, 2008, Cairns, Australia: Introduction to the Special Issue
  38. Understanding earthquake fault systems using QuakeSim analysis and data assimilation tools
  39. The future Global Geodetic Observing System
  40. The goals, achievements, and tools of modern geodesy
  41. Radar and Lidar Measurement of Terrestrial Processes
  42. Geophysical Finite-Element Simulation Tool (GeoFEST): Algorithms and Validation for Quasistatic Regional Faulted Crust Problems
  43. QuakeSim: Efficient Modeling of Sensor Web Data in a Web Services Environment
  44. QuakeSim: Web Services, Portals, and Infrastructure for Geophysics
  45. Deformation, Ecosystem Structure, and Dynamics of Ice (DESDynI)
  46. Deformation, Ecosystem Structure, and Dynamics of Ice (DESDynI)
  47. A feasibility study of data assimilation in numerical simulations of earthquake fault systems
  48. Conceptual Case for Assimilating Interferometric Synthetic Aperture Radar Data Into the HAZUS-MH Earthquake Module
  49. Genesis of a new NASA InSAR mission concept, and natural hazards applications
  50. Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part II
  51. QuakeSim: Enabling Model Interactions in Solid Earth Science Sensor Webs
  52. A RELM Earthquake Forecast Based on Pattern Informatics
  53. Space-Time Clustering and Correlations of Major Earthquakes
  54. Computational Earthquake Physics PART II: Introduction
  55. QuakeSim and the Solid Earth Research Virtual Observatory
  56. Systematic Procedural and Sensitivity Analysis of the Pattern Informatics Method for Forecasting Large (M > 5) Earthquake Events in Southern California
  57. iSERVO: Implementing the International Solid Earth Research Virtual Observatory by Integrating Computational Grid and Geographical Information Web Services
  58. Pattern dynamics, pattern hierarchies, and forecasting in complex multi-scale earth systems
  59. Computational Earthquake Physics PART I: Introduction
  60. Virtual California: Fault Model, Frictional Parameters, Applications
  61. Modification of the pattern informatics method for forecasting large earthquake events using complex eigenfactors
  62. Stress transfer in earthquakes, hazard estimation and ensemble forecasting: Inferences from numerical simulations
  63. Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part I
  64. A simulation-based approach to forecasting the next great San Francisco earthquake
  65. A Web Services-Based Universal Approach to Heterogeneous Fault Databases
  66. Satellite remote sensing of earthquake, volcano, flood, landslide and coastal inundation hazards
  67. Community InSAR Workshop calls for robust program and dedicated satellite mission
  68. Building Sensor Filter Grids: Information Architecture for the Data Deluge
  69. Computational Earthquake Science PART II
  70. Evidence of Strain Partitioning Between the Sierra Madre Fault and the Los Angeles Basin, Southern California from Numerical Models
  71. Computational Earthquake Science Part I
  72. Gutenberg-Richter statistics in topologically realistic system-level earthquake stress-evolution simulations
  73. GPS evidence for a coherent Antarctic plate and for postglacial rebound in Marie Byrd Land
  74. Computational Earthquake Science Part I
  75. Computational Earthquake Science Part II
  76. Computational Earthquake Science Part I
  77. Evidence of Strain Partitioning Between the Sierra Madre Fault and the Los Angeles Basin, Southern California from Numerical Models
  78. Illuminating earth's interior through advanced computing
  79. Performance Modeling Codes for the QuakeSim Problem Solving Environment
  80. Plan for living on a restless planet sets NASA's solid Earth agenda
  81. Earthquake Processes: Physical Modelling, Numerical Simulation and Data Analysis
  82. Introduction: Earthquake Processes: Physical Modelling, Numerical Simulation and Data Analysis, Part II
  83. Combined GPS and InSAR Models of Postseismic Deformation from the Northridge Earthquake
  84. A Hidden Markov Model Based Tool for Geophysical Data Exploration
  85. GEM Plate Boundary Simulations for the Plate Boundary Observatory: A Program for Understanding the Physics of Earthquakes on Complex Fault Networks via Observations, Theory and Numerical Simulation
  86. Computational Earthquake Science Part II
  87. Introduction
  88. Earthquake Processes: Physical Modelling, Numerical Simulation and Data Analysis Part I
  89. Introduction
  90. Earthquake Processes: Physical Modelling, Numerical Simulation and Data Analysis Part II
  91. Combined GPS and InSAR Models of Postseismic Deformation from the Northridge Earthquake
  92. A Hidden Markov Model Based Tool for Geophysical Data Exploration
  93. The coseismic geodetic signature of the 1999 Hector Mine earthquake
  94. Influence of anelastic surface layers on postseismic thrust fault deformation
  95. Introducing a new paradigm for computational earth science: A Web-object-based approach to earthquake simulations
  96. Reconciling rapid strain accumulation with deep seismogenic fault planes in the Ventura Basin, California
  97. Shortening and thickening of metropolitan Los Angeles measured and inferred by using geodesy
  98. GPS observations of fault afterslip and upper crustal deformation following the Northridge earthquake
  99. Geodetic observations of the M 5.1 January 29, 1994 Northridge aftershock
  100. Rate change observed at JPLM after the Northridge Earthquake
  101. Geodetic measurements of horizontal strain near the White Wolf fault, Kern County, California, 1926-1993
  102. The Magnitude 6.7 Northridge, California, Earthquake of 17 January 1994
  103. Hydro-isostatic deflection and tectonic tilting in the central Andes: Initial results of a GPS survey of Lake Minchin shorelines
  104. Geodetic measurement of deformation in the Ventura Basin Region, southern California
  105. Space geodetic measurement of crustal deformation in central and southern California, 1984-1992
  106. Discrepancy between geological and geodetic deformation rates in theVentura basin
  107. Computational Earthquake Physics PART I: Introduction
  108. Computation Earthquake Physics PART II: Introduction
  109. Geophysical Finite-Element Simulation Tool (GeoFEST): Algorithms and Validation for Quasistatic Regional Faulted Crust Problems
  110. Virtual California: Fault Model, Frictional Parameters, Applications
  111. Systematic Procedural and Sensitivity Analysis of the Pattern Informatics Method for Forecasting Large (M > 5) Earthquake Events in Southern California
  112. A community faulted-crust model using PYRAMID on cluster platforms