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LoopStructural 1.0: time-aware geological modelling

Lachlan Grose, Laurent Aillères, Gautier Laurent, Mark Jessell

2021Geoscientific model development80 citationsDOIOpen Access PDF

Abstract

Abstract. In this contribution we introduce LoopStructural, a new open-source 3D geological modelling Python package (http://www.github.com/Loop3d/LoopStructural, last access: 15 June 2021). LoopStructural provides a generic API for 3D geological modelling applications harnessing the core Python scientific libraries pandas, numpy and scipy. Six different interpolation algorithms, including three discrete interpolators and 3 polynomial trend interpolators, can be used from the same model design. This means that different interpolation algorithms can be mixed and matched within a geological model allowing for different geological objects, e.g. different conformable foliations, fault surfaces and unconformities to be modelled using different algorithms. Geological features are incorporated into the model using a time-aware approach, where the most recent features are modelled first and used to constrain the geometries of the older features. For example, we use a fault frame for characterising the geometry of the fault surface and apply each fault sequentially to the faulted surfaces. In this contribution we use LoopStructural to produce synthetic proof of concepts models and a 86 km × 52 km model of the Flinders Ranges in South Australia using map2loop.

Topics & Concepts

Python (programming language)Interpolation (computer graphics)Computer scienceGeologyComputational scienceAlgorithmComputer graphics (images)Programming languageAnimationGeological Modeling and AnalysisSeismic Imaging and Inversion TechniquesMethane Hydrates and Related Phenomena
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