CodaQback

IF 0.5 Q4 ENGINEERING, GEOLOGICAL
R. Biswas, N. Bora, Vaasudevan Srinivasan
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引用次数: 2

Abstract

Attenuation study of a province is considered as a basic quantity for seismic hazard assessment. It has already been established that the study of two physical processes, namely the seismic sources and propagation of the waves, is essential for seismic-hazard mapping. Additionally, attenuation plays an important role towards scaling seismic hazard. Accordingly, a computational tool entitled CodaQback is presented. Based on back scattering model, this versatile software is equipped with user-friendly graphical user interface. It also allows quick picking of phases for computing coda attenuation parameter. All outputs after each execution step in CodaQback are efficiently exported step-wise into a separate folder in Excel and text formats. To validate the computing tool, it is tested in real data analysis and there is found to be good matching of computed values with already established ones. It is envisioned that this package will enable user to derive quick and reliable estimation of coda attenuation parameter irrespective of geological and geo-morphological units.
一个省的衰减研究被认为是地震危险性评价的一个基本指标。已经确定的是,对地震震源和地震波传播这两个物理过程的研究对于地震灾害测绘是必不可少的。此外,衰减对震害的分级也起着重要作用。据此,提出了一种名为CodaQback的计算工具。该软件基于后向散射模型,具有友好的图形用户界面。它还允许快速挑选计算尾波衰减参数的相位。CodaQback中每个执行步骤后的所有输出都有效地逐步导出到Excel和文本格式的单独文件夹中。为了验证计算工具的有效性,在实际数据分析中进行了测试,发现计算值与已有值匹配良好。设想该软件包将使用户能够在不考虑地质和地质形态单位的情况下推导出快速可靠的尾波衰减参数估计。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
1.90
自引率
25.00%
发文量
11
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