Abstract

V3Geo is a cloud-based repository for publishing virtual 3D models in geoscience. The system allows storage, search and visualisation of models typically acquired using techniques such as photogrammetry and laser scanning. The platform has been developed to handle models at the range of scales typically used by geoscientists, from microscopic, hand samples and fossils through to outcrop sections covering metres to tens of kilometres. The cloud storage system serves the models to a purpose-built 3D web viewer. Models are tiled to ensure efficient streaming over the internet. The web viewer allows 3D models to be interactively explored without the need for specialist software to be installed. A measurement tool enables users to measure simple dimensions, such as widths, thicknesses, fault throws and more. V3Geo allows very large models comprising multiple sections and is designed to include additional interpretation layers. The specific focus on geoscience data is supported by defined metadata and a classification schema. Public and private storage are available, and public models are assigned Creative Commons licenses to govern content usage. This paper presents V3Geo as a sustainable resource for the geoscience community, including the motivation, main characteristics, and features. Example usage scenarios are highlighted: from undergraduate geology teaching, supporting virtual geoscience education, and preparing virtual field trips based on V3Geo models. Finally, best practise guidelines for preparing 3D model contributions for publication on V3Geo are included as an Appendix.

Highlights

  • Virtual 3D models, including virtual outcrops, are an increasingly standard data type underpinning many applications in 25 geology and the wider geoscience discipline

  • Despite the increased ease of model acquisition, a major challenge associated with virtual 3D models has been the large datasets 40 and heavy graphics hardware requirements needed for visualisation and analysis

  • User authentication and security is performed by the external Auth0 service, which is in turn used to manage the authorisation within the V3Geo database through the GraphQL Application programming interfaces (APIs)

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Summary

Introduction

Virtual 3D models, including virtual outcrops, are an increasingly standard data type underpinning many applications in 25 geology and the wider geoscience discipline. Nesbit et al (2020) presented case studies utilising several web-based solutions including Sketchfab, an open source point cloud viewer and the Unity gaming engine, assessing each based on factors such as size of dataset handled, ease of use and level of programming knowledge required. These studies highlight the practical benefits of web-based sharing of 3D models in geoscience, no current single repository has been presented for scientific and professional purposes. V3Geo provides a platform for sharing high quality 3D data, for increasing the accessibility and range of field areas available to a global community, complementing physical field geoscience and education, and preserving field sites 100 for posterity (where physical changes, political or access restrictions may preclude revisiting localities)

Specification
V3Geo architecture and framework
Roles V3Geo allows several user roles within the system
Model licenses
Metadata and search interface 155
V3Geo web viewer
Connection to LIME through V3Geo model loader 210
General procedure
Preparation and submission of 3D model files
Publications based on 3D models
Geology classes
Concepts in virtual geoscience
Virtual field trips
V3Geo is interpretation-ready
Facilitating 3D publication
Conclusions
Vertical reference
Some simple steps to ensure well-formed, high quality models
Number of sections and overlap requirement
Findings
Model export
Full Text
Published version (Free)

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