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Abstract
Rock mass characterization involves field data collection, processing, and analysis of the measurement results. Software packages facilitate creation of 3D models as well as the representation of rock mass parameters and resulting block arrays. The computer-generated imagery is traditionally illustrated as static perspective pseudo 3D screenshots, 2D maps or numerical tables and diagrams.
Mixed reality greatly improves data visualization within an immersive and interactive 3D holographic environment enabling interaction with scaled holograms at the actual field dimension.
The holograms are inspected individually or via remote collaboration within shared virtual spaces. The physical outcrop together with quantitative aspects of the rock mass structure is portrayed, enhancing communication and understanding of actual field attributes.
This paper presents case examples of mixed reality holographic models based on photogrammetry, terrestrial and hand-held LiDAR devices. The benefits and potential applications of mixed reality in engineering geology and rock mass characterization are summarized.
Mixed reality greatly improves data visualization within an immersive and interactive 3D holographic environment enabling interaction with scaled holograms at the actual field dimension.
The holograms are inspected individually or via remote collaboration within shared virtual spaces. The physical outcrop together with quantitative aspects of the rock mass structure is portrayed, enhancing communication and understanding of actual field attributes.
This paper presents case examples of mixed reality holographic models based on photogrammetry, terrestrial and hand-held LiDAR devices. The benefits and potential applications of mixed reality in engineering geology and rock mass characterization are summarized.
Original language | English |
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Title of host publication | Challenges in Rock Mechanics and Rock Engineering |
Subtitle of host publication | Proceedings of the 15th International ISRM Congress |
Editors | Wulf Schubert, Alexander Kluckner |
Publisher | Österreichische Gesellschaft für Geomechanik |
Pages | 788-793 |
Number of pages | 6 |
ISBN (Electronic) | 978-3-9503898-3-8 |
Publication status | Published - 2023 |
Event | 15th ISRM Congress 2023 & 72nd Geomechanics Colloquium: ISRM 2023 - Congress Salzburg, Salzburg, Austria Duration: 9 Oct 2023 → 14 Oct 2023 https://www.isrm2023.com/de/ |
Conference
Conference | 15th ISRM Congress 2023 & 72nd Geomechanics Colloquium |
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Abbreviated title | ISRM 2023 |
Country/Territory | Austria |
City | Salzburg |
Period | 9/10/23 → 14/10/23 |
Internet address |
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Dive into the research topics of 'Holographic mixed reality: an enhanced technology for visualizing and evaluating complex 3D geologic data'. Together they form a unique fingerprint.Activities
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Holographic mixed reality: an enhanced technology for visualizing and evaluating complex 3D geologic data
Markus Kaspar (Speaker), Daniel Scott Kieffer (Contributor) & Qian Liu (Contributor)
12 Oct 2023Activity: Talk or presentation › Talk at conference or symposium › Science to science
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15th ISRM Congress 2023 & 72nd Geomechanics Colloquium
Markus Kaspar (Participant)
9 Oct 2023 → 14 Oct 2023Activity: Participation in or organisation of › Conference or symposium (Participation in/Organisation of)