Earthquake Early Warning

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SCEC Earthquake Early Warning Activities

SCEC4 science plans emphasize the development and use of time-dependent seismic hazard analysis. SCEC is working to extend time-dependent seismic hazard analysis through application of EEW technologies. SCEC is working with the California Integrated Seismic Network (CISN) in the development and evaluation of a prototype CISN EEW system called the CISN ShakeAlert system.

SCEC is working to developed automated CISN EEW performance evaluation system. This system, currently called the CISN Testing Center (CTC), is based on the testing framework developed on the SCEC CSEP project.

CISN ShakeAlert Evaluation Processing

Current SCEC EEW Evaluation development is described in on the following wiki entry page:

CISN EEW Testing Data Sets

CISN EEW Trigger Summary

CISN EEW Station Lists

CISN provided the following list of stations used in current CISN EEW processing

The ShakeMap authorized data source may provide the observational data used to validate short term ground motion forecasts.

ShakeAlert CTC Trac System

EEW-Related SCEC Research Documents and Links

2010

2009

2008

2006

Fig 1: California Station List with M8 Epicenter.


Fig 2: California Testing Region (inner) and Catalog Region (outer).
Fig 3: Plotting of ShakeMap observation data for Event in Southern California.
Fig 4: Plotting of ShakeMap observation data for Event in Southern California.
Fig 5: Travel time curves show region for which no warnings are possible because of travel time and processing delays.
Fig 6: ShakeMap color scale shows instrumental intensity estimates or observations.
Fig 6: Scheme for comparing PGV and PGA values.
Fig 6: Prototype ShakeAlert Display (Image Credit: Kalpesh Solanki)
Fig 7: CA EQ Probabilities by Magnitude
Fig 8: CISN EQ Example of Warning Times.


Catalog Comparison

We looked at current eew results on the CISN algorithm testing site CISN EEW Algorithm Testing Site]. The web system provides several summaries. We compared the earthquakes on two summaries available on the web site which are: (1) Catalog summary and (2) Cumulative Trigger Summary. EEW system list of ANSS events against ANSS list of triggers.

To interpret these trigger summaries were designed to compare eew performance anywhere in california. The ANSS earthquake catalog is the reference observational data.

The EEW algorithm testing system filters the catalog to include only earthquakes within California region. We based the EEW California region on the CSEP region. There are two regions defined. California testing region. In this region, the systems are expected to forecast earthquakes, or provide EEW alerts. There is a slightly larger region which is the catalog region. When we retrieve the catalog and we restrict our request to a region, we may miss earthquakes right on the edge due to uncertainties in the earthquake locations. So we use a reference earthquake data set from a slightly larger region, the catalog region.

These cumulative summaries work on the site, but they are so large now, with multple years of info that it produces multi-MB htlm files. We don't have good parsing of these, but we worked with data from these two summaries retrieved on 12 Oct 2010.

We found that he catalog list has two events not included in the trigger list. I believe these in the region between the testing region and the catalog region. The two catalog events are listed:

NC	71330090	1/4/2010	14:24:54	4.12	40.2773	-123.868	30.74
CI	14858988	10/12/2010	3:00:34	4.27	32.1582	-115.29	5.58

We need to confirm this one is plausible (32.1582,-115.29) but this is in Humbolt (40.2773,-123.868)so it is not out of the teting region. This discrpency between ANSS events in the two lists remains.

The total events in the trigger list is 146 (1Jan2010 through 12Oct2010)

CTC Abstract for SCEC Annual Meeting 2010

Testing Regional-scale Ground Motion Estimates for the CISN ShakeAlert Project Philip Maechling, Maria Liukis, Thomas H. Jordan

Our SCEC research team has developed initial capabilities of the CISN Testing Center (CTC) as a part of the USGS-funded CISN ShakeAlert Project. The CTC is designed to compare regional-scale ground motion estimates, such as peak ground motion estimates, against observed ground motion data, for significant California Earthquakes. The CTC is designed to identify which ShakeAlert ground motion estimation methods produce the best fit to observed ground motions.

Scientific goals of the CTC include (a) development of consensus among SCEC researchers on meaningful measures of comparison between ground motion estimates and observations, (b) collection and analysis of ShakeAlert performance information, and (c) integration of standard Probabilistic Seismic Hazard Analysis (PSHA) terms and practices into EEW. The technical goal of the CTC is to develop an automated system that can comparing ground motion estimates against ground motion observations. The CTC system used the CSEP testing framework to automate the evaluation of CISN ShakeAlert rapid earthquake parameters including ground motion forecasts for each event.

As part of this year’s CTC development, we updated the CSEP Testing Framework to use the USGS ShakeMap RSS Feed as an authorized source of event-based ground motion observations. As ShakeAlert systems produces rapid ground motion estimates for significant California events, the CTC will evaluate those ShakeAlert ground motion estimates against CISN ground motion observation using goodness-of-fit algorithms defined by CISN scientific groups.

Our ShakeAlert ground motion forecast testing shares scientific and technical goals with several other SCEC activities including validation of attenuation relationships, synthetic ShakeMaps, velocity model and wave propagation model goodness of fit measures, and short term ground motion forecast testing. The CTC system is designed to support CISN ShakeAlert testing and to also be applicable for evaluation of other ground motion estimation methods.

Fig 7: JMA diagram showing EEW concepts and types of EEW system implementations.
Fig 8: JMA diagram showing potential users of EEW ground motion forecasts.
Fig 9: San Francisco Chronicle graphic showing EEW concepts in California.
Fig 10: Japanese Public EEW Awareness Information.
Fig 11: Current and proposed station locations for CISN.

Additional ShakeAlert Information

ShakeAlert CTC Software Stack Description

The following packages contribute to the software stack used by EEW software:

  • awk
  • sed
  • java
  • python and it's external libraries: matplotlib, basemap, numpy, scipy, xml

See Also