Abstract
Abstract. For the correct usage and analysis within a BIM environment, image-based point clouds that were created with Structure from Motion (SfM) tools have to be transformed into the building coordinate system via a seven parameter Helmert Transformation. Usually control points are used for the estimation of the transformation parameters. In this paper we present a novel, highly automated approach to calculate these transformation parameters without the use of control points. The process relies on the relationship between wall respectively plane information of the BIM and three-dimensional line data that is extracted from the image data. In a first step, 3D lines are extracted from the oriented input images using the tool Line3D++. These lines are defined by the 3D coordinates of the start and end points. Afterwards the lines are matched to the planes originating from the BIM model representing the walls, floors and ceilings. Besides finding a suitable functional and stochastic model for the observation equations and the adjustment calculation, the most critical aspect is finding a correct match for the lines and the planes. We therefore developed a RANSAC-inspired matching algorithm to get a correct assignment between elements of the two data sources. Synthetic test data sets have been created for evaluating the methodology.
Highlights
A BIM-Model depicts a complete digital representation of a building
In conjunction with multi-view stereo algorithms dense point clouds can be further processed to meshes representing the geometry of the object
Our presented approach does not depend on a manual measurement of points but rather uses geometric relationships between specific BIM-objects and extracted line structures from the captured images to compute the transformation parameters
Summary
The model is used as the extensive information source during the complete life cycle of the real world building beginning with the planning and construction, continuing with the operation and eventually stops with the demolition During these different phases, it will be possible and almost inevitable that deviations between the as-build and the originally as-planned state will occur. Our presented approach does not depend on a manual measurement of points but rather uses geometric relationships between specific BIM-objects and extracted line structures from the captured images to compute the transformation parameters. This approach enables an automatic room-based transformation of the local point cloud into the building coordinate system for further analysis
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