14 research outputs found
Feature-assisted interactive geometry reconstruction in 3D point clouds using incremental region growing
Reconstructing geometric shapes from point clouds is a common task that is
often accomplished by experts manually modeling geometries in CAD-capable
software. State-of-the-art workflows based on fully automatic geometry
extraction are limited by point cloud density and memory constraints, and
require pre- and post-processing by the user. In this work, we present a
framework for interactive, user-driven, feature-assisted geometry
reconstruction from arbitrarily sized point clouds. Based on seeded
region-growing point cloud segmentation, the user interactively extracts planar
pieces of geometry and utilizes contextual suggestions to point out plane
surfaces, normal and tangential directions, and edges and corners. We implement
a set of feature-assisted tools for high-precision modeling tasks in
architecture and urban surveying scenarios, enabling instant-feedback
interactive point cloud manipulation on large-scale data collected from
real-world building interiors and facades. We evaluate our results through
systematic measurement of the reconstruction accuracy, and interviews with
domain experts who deploy our framework in a commercial setting and give both
structured and subjective feedback.Comment: 13 pages, submitted to Computers & Graphics Journa
Visual analytics and rendering for tunnel crack analysis : a methodological approach for integrating geometric and attribute data
The visual analysis of surface cracks plays an essential role in tunnel maintenance when assessing the condition of a tunnel. To identify patterns of cracks, which endanger the structural integrity of its concrete surface, analysts need an integrated solution for visual analysis of geometric and multivariate data to decide if issuing a repair project is necessary. The primary contribution of this work is a design study, supporting tunnel crack analysis by tightly integrating geometric and attribute views to allow users a holistic visual analysis of geometric representations and multivariate attributes. Our secondary contribution is Visual Analytics and Rendering, a methodological approach which addresses challenges and recurring design questions in integrated systems. We evaluated the tunnel crack analysis solution in informal feedback sessions with experts from tunnel maintenance and surveying. We substantiated the derived methodology by providing guidelines and linking it to examples from the literature.Austrian Science Fund (FWF)Vienna Science and Technology Fund (WWTF
LiteVis: Integrated Visualization for Simulation-Based Decision Support in Lighting Design
InCorr: Interactive Data-Driven Correlation Panels for Digital Outcrop Analysis
Geological analysis of 3D Digital Outcrop Models (DOMs) for reconstruction of ancient habitable environments is a key aspect of the upcoming ESA ExoMars 2022 Rosalind Franklin Rover and the NASA 2020 Rover Perseverance missions in seeking signs of past life on Mars. Geologists measure and interpret 3D DOMs, create sedimentary logs and combine them in ‘correlation panels’ to map the extents of key geological horizons, and build a stratigraphic model to understand their position in the ancient landscape. Currently, the creation of correlation panels is completely manual and therefore time-consuming, and inflexible. With InCorr we present a visualization solution that encompasses a 3D logging tool and an interactive data-driven correlation panel that evolves with the stratigraphic analysis. For the creation of InCorr we closely cooperated with leading planetary geologists in the form of a design study. We verify our results by recreating an existing correlation analysis with InCorr and validate our correlation panel against a manually created illustration. Further, we conducted a user-study with a wider circle of geologists. Our evaluation shows that InCorr efficiently supports the domain experts in tackling their research questions and that it has the potential to significantly impact how geologists work with digital outcrop representations in general.Comp Graphics & Visualisatio