SRL release version

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@ -2,7 +2,7 @@ Welcome to the Seismic HAzard Parameters Evaluation (SHAPE) Toolbox!
Find the two versions in the corresponding directories
SHAPE_ver1 - is a Interactive Standalone version (inputs are set interactively, step by step)
SHAPE_ver1 - is an Interactive Standalone version (inputs are set interactively, step by step)
REQUIREMENTS: Matlab R2017b or later, with installed Toolboxes:
- 'Statistics and Machine Learning'
- 'Image Processing'
@ -13,13 +13,13 @@ SHAPE_ver2 - is a Wrapper version (inputs are set in the wrapper script and onc
- 'Statistics and Machine Learning'
>> Please refer to the "READ_ME_SHAPE_ver*.pdf" file in each directory for further instructions on
step-by-step implementation of the applications as well as for data requirements & general tips.
step-by-step implementation of SHAPE as well as for data format specifications and general tips.
>> Your feedback is welcome! contact Dr K. Leptokaropoulos for questions, suggestions or comments:
- kleptoka@igf.edu.pl
>> Please acknowledge any use of SHAPE in your work, by citing:
- Leptokaropoulos & Lasocki (2020), SHAPE: A MATLAB Software Package for Time-dependent Seismic
Hazard Analysis, Seismol. Res. Lett., doi:
- Leptokaropoulos, K. and S. Lasocki (2020), SHAPE: A MATLAB Software Package for Time-dependent
Seismic Hazard Analysis, Seismol. Res. Lett., doi: 10.1785/0220190319
ENJOY!

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% PROGRAM : SHAPE [Seismic HAzard Parameters Evaluation]
% VERSION : V_1.2 [Interactive Standalone Version]
% LAST UPDATED: March 2020
% LAST UPDATED: April 2020
% COMPATIBLE : Matlab version 2017b or later
% REQUIREMENTS: "Statistics and Machine Learning" and "Image Processing" Matlab Toolbox installed
% TOOLBOX : "Hazard Analysis Toolbox" developed within SERA Project
% USER GUIDE : "READ_ME_SHAPE_ver1.pdf"
% CITE AS : Leptokaropoulos K. and S. Lasocki (2020), Seismol. Res. Lett., doi:
% CITE AS : Leptokaropoulos K. and S. Lasocki (2020), Seismol. Res. Lett., doi: 10.1785/0220190319
% CONTACT : kleptoka@igf.edu.pl (Dr. Kostas Leptokaropoulos)
% --------------------------------------------------------------------------------------------------------------------
% Time-and-Technology Dependent Seismic Hazard Assessment (SHA)
@ -16,18 +16,17 @@
% > File with the parameters of seismic data [mandatory]
% > File with the parameters of production data [optional]
% > File specifying time windows for SHA analysis [optional]
% > Files(s) with the fields description of the corresponding parameters in the seismic data file
% > Files(s) with the fields description of the corresponding parameters in the production data files
% > File with the fields description of the corresponding parameters in the seismic data file
% > File with the fields description of the corresponding parameters in the production data files
% FOR DETAILS on data requirements please refer to the document:
% "READ_ME_SHAPE_ver1.pdf"
% --------------------------------------------------------------------------------------------------------------------
% OVERVIEW:THE PROGRAM takes as input a Seismic and optionally, a Production data parameters files to provides Seismic
% OVERVIEW: THE PROGRAM takes as input a Seismic and optionally, a Production data parameter file to provide Seismic
% Hazard Assessment for specified time-windows after filtering appropriately the data following User's specifications.
% --------------------------------------------------------------------------------------------------------------------
% AUTHORS: K. Leptokaropoulos and S. Lasocki
% Based on magnitude distribution and stationary hazard parameters estimation functions originally developed by S. Lasocki
% Last Updated: 03/2020, within SERA PROJECT, EU Horizon 2020 R&I
% programme under grant agreement No.730900
% Based on magnitude distribution/stationary hazard parameters estimation functions originally developed by S. Lasocki
% Last Updated: 04/2020, within SERA PROJECT, EU Horizon 2020 R&I programme under grant agreement No.730900
% CURRENT VERSION: v1.2 **** [INTERACTIVE STANDALONE VERSION!!]
%% - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
% PLEASE refer to the accompanying document:
@ -113,7 +112,7 @@
% Lasocki S, Urban P (2011), Acta Geophys. 59:659673
% Lasocki S, Orlecka-Sikora B (2008), Tectonophysics 456:2837
% Leptokaropoulos K, Staszek M, Cielesta S, Urban P, Olszewska D, Lizurek G (2017), Acta Geophys. 65:493-505
% Leptokaropoulos K, Lasocki S (2020), Seismol. Res. Lett., doi: .
% Leptokaropoulos K, Lasocki S (2020), Seismol. Res. Lett., doi: 10.1785/0220190319.
% ---------------------------------------------------------------------------------------------------------------------
% LICENSE
% This is free software: you can redistribute it and/or modify it under the terms of the

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% PROGRAM : SHAPE [Seismic HAzard Parameters Evaluation]
% VERSION : V_2.2 [Wrapper (fast) Standalone Version]
% LAST UPDATED: March 2020
% LAST UPDATED: April 2020
% COMPATIBLE : Matlab version 2017b or later
% REQUIREMENTS: "Statistics and Machine Learning" Matlab Toolbox installed
% TOOLBOX : "Hazard Analysis Toolbox" developed within SERA Project
% USER GUIDE : "READ_ME_SHAPE_ver2.docx"
% CITE AS : Leptokaropoulos K. and S. Lasocki (2020), Seismol. Res. Lett., doi:
% USER GUIDE : "READ_ME_SHAPE_ver2.pdf"
% CITE AS : Leptokaropoulos K. and S. Lasocki (2020), Seismol. Res. Lett., doi: 10.1785/0220190319
% CONTACT : kleptoka@igf.edu.pl (Dr. Kostas Leptokaropoulos)
% --------------------------------------------------------------------------------------------------------------------
% Time-and-Technology Dependent Seismic Hazard Assessment (SHA)
% --------------------------------------------------------------------------------------------------------------------
% INPUT:
% !!! ---------------------------- INPUT DATA REQUIREMENTS ----------------------------- !!!
% the program works with ASCII input data files (e.g. *.txt). The files needed are:
% > File with the parameters of seismic data [mandatory]
% > File with the parameters of production data [optional]
% > File specifying time windows for SHA analysis [optional]
% > Files(s) with the fields description of the corresponding parameters in the seismic data file
% > Files(s) with the fields description of the corresponding parameters in the production data files
% > File with the fields description of the corresponding parameters in the seismic data file
% > File with the fields description of the corresponding parameters in the production data files
% FOR DETAILS on data requirements please refer to the document:
% "READ_ME_SHAPE_ver2.pdf"
% --------------------------------------------------------------------------------------------------------------------
% OVERVIEW:THE PROGRAM takes as input a Seismic and optionally, a Production data parameters files to provides Seismic
% OVERVIEW: THE PROGRAM takes as input a Seismic and optionally, a Production data parameter file to provide Seismic
% Hazard Assessment for specified time-windows, following User's specifications.
% --------------------------------------------------------------------------------------------------------------------
% AUTHORS: K. Leptokaropoulos and S. Lasocki
% Based on magnitude distribution and stationary hazard parameters estimation functions originally developed by S. Lasocki
% Last Updated: 03/2020, within SERA PROJECT, EU Horizon 2020 R&I
% programme under grant agreement No.730900
% Based on magnitude distribution/stationary hazard parameters estimation functions originally developed by S. Lasocki
% Last Updated: 04/2020, within SERA PROJECT, EU Horizon 2020 R&I programme under grant agreement No.730900
% CURRENT VERSION: v2.2 **** [WRAPPER (fast) STANDALONE VERSION!!]
%% - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
% PLEASE refer to the accompanying document:
@ -45,7 +45,7 @@
% upon Users particular specifications. 4 different magnitude distribution models can
% be chosen. The input files must be in ASCII format (e.g. *.txt). A brief description
% of the preparation process is given here:
% !!! THE USER SETS THE PARAMETERS IN LINES 115-130 !!! then the following steps are executed
% !!! THE USER SETS THE PARAMETERS IN LINES 117-134 !!! then the following steps are executed
% (please see in the script for more comments and details for each STEP)
% STEP_1. Upload Data
% STEP_2. Select Magnidue Scale
@ -98,7 +98,7 @@
% Lasocki S, Urban P (2011), Acta Geophys. 59:659673
% Lasocki S, Orlecka-Sikora B (2008), Tectonophysics 456:2837
% Leptokaropoulos K, Staszek M, Cielesta S, Urban P, Olszewska D, Lizurek G (2017), Acta Geophys. 65:493-505
% Leptokaropoulos K, Lasocki S (2020), Seismol. Res. Lett., doi: .
% Leptokaropoulos K, Lasocki S (2020), Seismol. Res. Lett., doi: 10.1785/0220190319.
% ---------------------------------------------------------------------------------------------------------------------
% LICENSE
% This is free software: you can redistribute it and/or modify it under the terms of the