... of accounting for the breadth of perspectives in the HVSR community. In response, this work presents a new release of the open‐source Python package hvsrpy designed to provide users a simple, extensible, and reproducible tool for microtremor and earthquake HVSR processing. hvsrpy provides a comprehensive set...

... different seismic phases and noise are better distinguished according to the time–frequency difference of these components. Here, we present a Python package, Pyntfa, for performing nonstationary time–frequency analysis on seismological datasets. To characterize data nonstationarity, we apply nonstationary...

..., a Python package for generalized transdimensional and hierarchical Markov chain Monte Carlo sampling. Leveraging object‐oriented programming principles, BayesBay facilitates the definition of Bayesian sampling problems across a range of applications. This includes joint inversions of multiple data sets...

...Jintao Li; Yunzhi Shi; Xinming Wu ABSTRACT As Python’s role in processing and interpreting geophysical data expands, the need for a Python-based tool tailored for visualizing geophysical data has become increasingly critical. In response, the Computational Interpretation Group Visualization tool...

...Danilo R. Velis; Julián L. Gómez ABSTRACT We present a Python code that implements a novel threshold-free polarization strategy for removing random noise from 3C linearly polarized seismic data. The code, which we refer to as polarization denoising through windowing (poldw), uses closed-form...

... aspects: big data volume, equidistant sensing, measurement of axial strain (strain rate), and noise characteristics. These differences make DAS data processing challenging for new hands. To lower the bar of DAS data processing, we develop an open‐source Python toolbox called DASPy, which encompasses...

... of the main parameters that control rock’s mechanical characteristics and fluid flow. The arrangement of fractures on outcrop analogues is critical in predicting rock mass integrity and subsurface fluid migration and storage. Here, we present the application of Fracture Analyser, a Python tool, in analysing...

...Robert J. Skoumal; Jeanne L. Hardebeck; Peter M. Shearer Abstract We introduce a Python package for computing focal mechanism solutions. This algorithm, which we refer to as SKHASH, is largely based on the HASH algorithm originally written in Fortran over 20 yr ago. HASH innovated the use of suites...

...Ioannis Fountoulakis; Christos P. Evangelidis Abstract This article introduces the first version of SSA2py (v.1.0)—an open‐source package designed to implement the source‐scanning algorithm (SSA). SSA2py is a Python‐based, high‐performance‐oriented package that incorporates the SSA method, which...

... Insight and (5) IHS Enerdeq Browser, which are proprietary database services that provide current and historical well data through paid subscriptions. TexNet makes their data available to the public at dynamic map websites. We automate data processing and data management using Python and ArcGIS Pro tools...

... by analyzing electrical data collected at the surface or in boreholes. However, interpreting ERT images can be complex due to ambiguities in their resolution. To address this issue, we develop a postprocessing method called Python iMprovement of Electrical Resistivity tomography ReliabilitY (PyMERRY...

... marching method. Different from existing travel‐time calculation packages, the pyekfmm package offers a seamless compilation of the backbone C programs in the Python environment through a state‐of‐the‐art pip installation. As a result, the users can use the pyekfmm package for different scientific purposes...

..., are generally time consuming and challenging to obtain detailed features of surface ruptures. Here, we developed an open‐source semiautomatic Python graphical user interface‐based application named EASRAPP (An Application for Extraction and Analysis of Surface Ruptures). EASRAPP is a graphical Python...

... Python package for multichannel seismic data that benefits both communities, that is, exploration and earthquake seismology, called Pyseistr. The Pyseistr is a Python package that is designed to make full use of the structural patterns in multichannel seismic data to facilitate the data processing...

...Mijian Xu; Jing He Abstract Seispy is a graphical interface Python module for receiver function (RF) calculation and postprocessing in seismological research. Automated workflows of RF calculations facilitate processing large volume of different types of seismic data. The graphical user interface...

... is to accelerate earthquake predictability research through rigorous testing of probabilistic earthquake forecast models and prediction algorithms. pyCSEP supports this mission by providing open‐source implementations of useful tools for evaluating earthquake forecasts. pyCSEP is a Python package that contains...

... to measure cross‐correlation values at a local seismic network and evaluate the location of overlapping sources. In this work, we developed a Python code to identify REs (FINDRES), inspired by previous literature, which combines both seismic waveform similarity and differential S ‐ P travel time measured...

... and provide uncertainty assessment, but the application of MCMC is strongly subject to prior information. In this study, we present a new Python package MCMTpy. MCMTpy exploits the Cut‐And‐Paste (CAP) algorithm and Bayesian inference, using Markov Chain to implement the source location inversion and focal...

...Germán A. Prieto Abstract Spectral analysis has been a fundamental tool in analyzing seismic signals for studying the earthquake source, propagation of seismic waveforms through the Earth, and even monitoring changes in Earth’s structure. I present an open‐source Python package, multitaper...