A semi-automated and structured approach for creating a Geotechnical Synthesis Model

Civil Engineering Design Pub Date : 2024-06-25 DOI:10.1002/cend.202400007

Hannah Werkgarner, Hannah Salzgeber, Hans Exenberger, Manfred Harder, Larissa Schneiderbauer

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Abstract

This article presents an innovative approach to structured information exchange in ground modeling, integrating geology, geotechnics, and hydrogeology. It proposes a data framework seamlessly merging the DAUB's modeling guidelines with the University of Innsbruck research. Addressing diverse data management challenges and ensuring interoperability, the workflow offers solutions for CAD- and interpolation-based modeling, enabling semi-automated generation of Geotechnical Synthesis Models with open file format export. Overcoming obstacles, the article introduces a uniform rasterization method, defining a tunnel-specific repository voxel (Tuxel). Results showcase a streamlined, semi-automated process using Autodesk Civil 3D® and Seequent Leapfrog Works®, enhancing data uniformity and enabling cross-project information exchange. This workflow provides practical solutions for collaborative ground modeling within BIM/TIM frameworks, fostering efficient and standardized data handling.

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创建岩土工程综合模型的半自动化结构化方法

本文提出了一种创新的方法，将地质学、岩土工程学和水文地质学整合在一起，用于地面建模的结构化信息交换。文章提出了一个数据框架，将 DAUB 的建模指南与因斯布鲁克大学的研究无缝融合。为了应对各种数据管理挑战并确保互操作性，该工作流程提供了基于 CAD 和插值建模的解决方案，可半自动生成岩土工程综合模型，并以开放文件格式导出。为了克服障碍，文章介绍了一种统一的光栅化方法，定义了隧道专用的存储体素（Tuxel）。结果展示了使用 Autodesk Civil 3D® 和 Seequent Leapfrog Works® 的简化、半自动化流程，提高了数据的统一性，实现了跨项目信息交换。该工作流程为 BIM/TIM 框架内的地面协同建模提供了实用的解决方案，促进了高效和标准化的数据处理。

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Civil Engineering Design

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