Michael Hearne
I design, develop, and deploy complex earthquake-related scientific models as applications that run 24x7 in a production environment. These systems run in near real-time and produce results that are posted to the ANSS ComCat event pages.
Mike has a Bachelor's degree in Aquatic Biology from the University of California at Santa Barbara, and over 20 years of experience developing software for scientific organizations. He has experience with ocean color remote sensing, LIDAR, multi-spectral remote sensing for defense applications, and earthquake hazards applications.
Science and Products
Filter Total Items: 24
The US Geological Survey ground failure product: Near-real-time estimates of earthquake-triggered landslides and liquefaction The US Geological Survey ground failure product: Near-real-time estimates of earthquake-triggered landslides and liquefaction
Since late 2018, the US Geological Survey (USGS) ground failure (GF) earthquake product has provided publicly available spatial estimates of earthquake-triggered landslide and liquefaction hazards, along with the qualitative hazard and population exposure-based alerts for M > 6 earthquakes worldwide and in near real time (within ∼30 min). Earthquake losses are oftentimes greatly...
Authors
Kate E. Allstadt, Eric M. Thompson, Randall W. Jibson, David J. Wald, Mike Hearne, Edward J. Hunter, Jeremy Fee, Heather Schovanec, Daniel Slosky, Kirstie Lafon Haynie
ShakeMap operations, policies, and procedures ShakeMap operations, policies, and procedures
The US Geological Survey’s ShakeMap is used domestically and globally for post-earthquake emergency management and response, engineering analyses, financial instruments, and other decision-making activities. Recent developments in the insurance, reinsurance, and catastrophe bond sectors link payouts of potentially hundreds of millions of dollars to ShakeMap products. Similarly, building...
Authors
David J. Wald, Charles Worden, Eric M. Thompson, Mike Hearne
The 2019 Ridgecrest, California, earthquake sequence ground motions: Processed records and derived intensity metrics The 2019 Ridgecrest, California, earthquake sequence ground motions: Processed records and derived intensity metrics
Following the 2019 Ridgecrest, California, earthquake sequence, we compiled ground‐motion records from multiple data centers and processed these records using newly developed ground‐motion processing software that performs quality assurance checks, performs standard time series processing steps, and computes a wide range of ground‐motion metrics. In addition, we compute station and...
Authors
John Rekoske, Eric M. Thompson, Morgan P. Moschetti, Mike Hearne, Brad T. Aagaard, Grace Alexandra Parker
A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems
The U.S. Geological Survey’s PAGER alert system provides rapid (10-20 min) but general loss estimates of ranges of fatalities and economic impact for significant global earthquakes. FEMA’s Hazus software, in contrast, provides time consuming (2-5 hours) but more detailed loss information quantified in terms of structural, social, and economic consequences estimated at a much higher...
Authors
David J. Wald, Hope A. Seligson, Jesse Rozelle, Jordan Burns, Kristin Marano, Kishor S. Jaiswal, Mike Hearne, Douglas Bausch
An update of USGS bear-real-time earthquake shaking and impact products An update of USGS bear-real-time earthquake shaking and impact products
We report on advancements in both hazard and consequence modeling that form the core of the U.S. Geological Survey’s (USGS) strategy to improve rapid earthquake shaking and loss estimates. Whereas our primary goal is to improve our operational capabilities of the USGS National Earthquake Information Center, the science, software, and datasets behind these systems continue to advance uses...
Authors
David J. Wald, Kishor S. Jaiswal, Kristin Marano, Mike Hearne, Kuo-wan Lin, Daniel Slosky, Kate E. Allstadt, Eric M. Thompson, Charles Worden, Gavin P. Hayes, Vince Quitoriano
Earthquakes, ShakeMap Earthquakes, ShakeMap
ShakeMap® is an open-source software program employed to automatically produce a suite of maps and products that portray the geographical extent and severity of potentially damaging shaking following an earthquake. ShakeMap’s primary purpose is to provide post-earthquake situational awareness for emergency management and response as well as damage and loss estimation. The availability of...
Authors
David J. Wald, Charles Worden, Eric M. Thompson, Mike Hearne
Science and Products
Filter Total Items: 24
The US Geological Survey ground failure product: Near-real-time estimates of earthquake-triggered landslides and liquefaction The US Geological Survey ground failure product: Near-real-time estimates of earthquake-triggered landslides and liquefaction
Since late 2018, the US Geological Survey (USGS) ground failure (GF) earthquake product has provided publicly available spatial estimates of earthquake-triggered landslide and liquefaction hazards, along with the qualitative hazard and population exposure-based alerts for M > 6 earthquakes worldwide and in near real time (within ∼30 min). Earthquake losses are oftentimes greatly...
Authors
Kate E. Allstadt, Eric M. Thompson, Randall W. Jibson, David J. Wald, Mike Hearne, Edward J. Hunter, Jeremy Fee, Heather Schovanec, Daniel Slosky, Kirstie Lafon Haynie
ShakeMap operations, policies, and procedures ShakeMap operations, policies, and procedures
The US Geological Survey’s ShakeMap is used domestically and globally for post-earthquake emergency management and response, engineering analyses, financial instruments, and other decision-making activities. Recent developments in the insurance, reinsurance, and catastrophe bond sectors link payouts of potentially hundreds of millions of dollars to ShakeMap products. Similarly, building...
Authors
David J. Wald, Charles Worden, Eric M. Thompson, Mike Hearne
The 2019 Ridgecrest, California, earthquake sequence ground motions: Processed records and derived intensity metrics The 2019 Ridgecrest, California, earthquake sequence ground motions: Processed records and derived intensity metrics
Following the 2019 Ridgecrest, California, earthquake sequence, we compiled ground‐motion records from multiple data centers and processed these records using newly developed ground‐motion processing software that performs quality assurance checks, performs standard time series processing steps, and computes a wide range of ground‐motion metrics. In addition, we compute station and...
Authors
John Rekoske, Eric M. Thompson, Morgan P. Moschetti, Mike Hearne, Brad T. Aagaard, Grace Alexandra Parker
A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems A domestic earthquake impact alert protocol based on the combined USGS PAGER and FEMA Hazus loss estimation systems
The U.S. Geological Survey’s PAGER alert system provides rapid (10-20 min) but general loss estimates of ranges of fatalities and economic impact for significant global earthquakes. FEMA’s Hazus software, in contrast, provides time consuming (2-5 hours) but more detailed loss information quantified in terms of structural, social, and economic consequences estimated at a much higher...
Authors
David J. Wald, Hope A. Seligson, Jesse Rozelle, Jordan Burns, Kristin Marano, Kishor S. Jaiswal, Mike Hearne, Douglas Bausch
An update of USGS bear-real-time earthquake shaking and impact products An update of USGS bear-real-time earthquake shaking and impact products
We report on advancements in both hazard and consequence modeling that form the core of the U.S. Geological Survey’s (USGS) strategy to improve rapid earthquake shaking and loss estimates. Whereas our primary goal is to improve our operational capabilities of the USGS National Earthquake Information Center, the science, software, and datasets behind these systems continue to advance uses...
Authors
David J. Wald, Kishor S. Jaiswal, Kristin Marano, Mike Hearne, Kuo-wan Lin, Daniel Slosky, Kate E. Allstadt, Eric M. Thompson, Charles Worden, Gavin P. Hayes, Vince Quitoriano
Earthquakes, ShakeMap Earthquakes, ShakeMap
ShakeMap® is an open-source software program employed to automatically produce a suite of maps and products that portray the geographical extent and severity of potentially damaging shaking following an earthquake. ShakeMap’s primary purpose is to provide post-earthquake situational awareness for emergency management and response as well as damage and loss estimation. The availability of...
Authors
David J. Wald, Charles Worden, Eric M. Thompson, Mike Hearne