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To estimate time-dependent values of seismic hazard parameters: the activity rate, the Gutenberg-Richter b-value, the return period and the exceedance probability for a prescribed area. The time windows considered for the analysis are graphically selected by the user from production parameter plots. In such way these windows and the derived hazard parameters are directly associated to anthropogenic activity. For the magnitude distribution estimation methods please refer to the “Stationary Hazard” application. |
REFERENCES Document Repository
CATEGORY Source Parameter Estimation, Probabilistic Seismic Hazard Analysis
KEYWORDS Statistical analysis, Probabilistic seismic hazard analysis, Time-dependent hazard, Production-dependent hazard, Production - seismicity interaction
CITATION Please acknowledge use of this application in your work:
IS-EPOS. (2017). Estimation of source parameters in time-varying production parameters geometry [Web application/Source code]. Retrieved from https://tcs.ah-epos.eu/
Step by Step
The
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input data required for
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Estimation of source parameters in time-varying production parameters geometry application is a catalog containing seismic events
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and GDF parameter file (with single time-correlated parameter). The User enters his/
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her personal workspace and
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selects a seismic events catalog and a time-corelated parameter, that
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are already uploaded (see "AH Episodes" chapter).
For using a selected catalog for
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Estimation of source parameters in time-varying production parameters geometry application, the User shall click on the 'Actions' tab and then select consecutively, 'USE IN APPLICATION' and '
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Estimation of source parameters in time-varying production parameters geometry', as highlighted in Figure 1.
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Figure 1. Selection of the application from the data uploaded in the workspace
Once the application has been selected the User is requested to select options and fulfill some fields with parameter values needed for the
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analysis (see the following Figures). These parameters are:
Catalog: A catalog has been already uploaded since the previous step, however, the User has the chance to select a different dataset, either from another episode or the any dataset after performing some processing/ filtering.
Select Magnitude column: The user may click on the small arrow in the respective tab in order to chose among different magnitude scales, in the cases where they are available (e.g. ML, Mw, etc).
Select Area: This is an interactive option providing to the User the possibility to select data, spatially constrained by a predefined shape (indicated by numbers 1-5 in Figure 2):
1) No draw option.
2) Draw a polygon.The User may select data into a polygon drawn after clicking on different points of the map. To close the polygon, the User has to double click on the last point, such that this point will be connected with the first one.
3) Draw a rectangle. To select data into a rectangular the User has to click on a point of the map and move the cursor to any direction. A second left mouse button click will restrict the selected area at its current state.
4) Draw a circle (option demonstrated in Figure 2). To select data into a circular the User has to click on a point of the map and move the cursor to any direction. A second left mouse button click will restrict the selected area at its current state. Note that the first click on the map corresponds to the circle's center.
5) Select all data. All available data included in the uploaded dataset is used for TDSH analysis
Figure 2. Interactive data selection
The magnitude range (minimum and maximum magnitude assigned in the catalog) is shown in the screen (M range, Figure 3) for informative purposes. The rest of the input parameters are demonstrated in Figure 3:
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Time unit: There are 3 options for this parameter, which are shown after clicking on the small arrow in the box: Day, Month, Year. The time unit will be stored and all the calculations hereinafter will be performed according to this unit.
GDF with single time-correlated parameter: The User needs to select, the previously loaded time-correlated production parameter of his/her choice.
Time unit: There are 3 options for this parameter, which are shown after clicking on the small arrow in the box: Day, Month, Year. The time unit will be stored and all the calculations hereinafter will be performed according to this unit.
Mmin: The User now is requested to chose the minimum magnitude (completeness level of the catalog). This can be done in two ways. The first is to type a single magnitude value in the empty box, possibly after he/she has performed an individual analysis (see "Completeness Magnitude Estimation", CME Application). The second is to graphically select the minimum magnitude from the Normal or the Cumulative histograms, which are available after clicking on the respective tabs. In both cases there is option to alter the step of the histogram's bars and to select between linear and logarithmic scale of the Y-axis for the plotting.
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Magnitude distribution estimation method: Four different methods are available in the
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EPISODES Platform: The Unbounded Gutenberg-Richter, the Upper-bounded Gutenberg-Richter, the unbounded non-parametric and the Upper-bounded non parametric estimations. To select one of the aforementioned methods of analysis, the User has to click on the arrow in the respective box.
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Figure
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2. Input parameters selection
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TIme windows: The user need to specify at least two time windows over for the analysis. Time windows can be selected from the plot of the chosen producion parametr, as shown on the figure below:
Magnitude: Magnitude for which the
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parameters will be calculated.
Method of creating windows: Two options are available at this field after clicking on the small arrow of the tab (see 'Time window Size' below for details).
Window size: Size (span) of the windows containing data for the analysis. "constant time period" and 'constant event number'. If time-mode is selected, the given value corresponds to the duration of each dataset, in days. If events-mode is selected instead, the given value corresponds to the number of events that each dataset contains (see Figure 4 for details).
Period length (for exceedance probability): Duration of time period for which exceedance probability will be estimated for the magnitude specified above.
After selecting all the parameters needed the User may click on the
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button, for the calculation process to be initiated.
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The
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results of the process include:
- Information
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- showing time windows
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- details:
- Numerical parameters resulted by the process, stored in the system, in the current folder (Figure 5). These outputs are available for the User for demonstration and plotting (when available).
- b-value and mean activity rate
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- overlaid with plot of the production parameter of the user choice. Note that b-value is not plotted (and not estimated all) if a non-parametric approach is selected as 'Magnitude distribution estimation method'.
- Activity rate plot overlaid with plot of the production parameter of the user choice.
- Mean return period
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- plot overlaid with plot of the production parameter of the user choice.
- Exceedance probability plot
NOTE that figure have enabled the zoom option, the scatter/line.spline chart type and linear/logarithmic scale of the Y-axis option.
Figure 5. Outputs of the application
Figure 6. Output graph Mean Activity Rate
Figure 7. Output graph of hazard parameter: Mean Return Period
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Overview
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