L. Díaz-Vilariño scite author profile

ABSTRACT:3D models of indoor environments are important in many applications, but they usually exist only for newly constructed buildings. Automated approaches to modelling indoor environments from imagery and/or point clouds can make the process easier, faster and cheaper. We present an approach to 3D indoor modelling based on a shape grammar. We demonstrate that interior spaces can be modelled by iteratively placing, connecting and merging cuboid shapes. We also show that the parameters and sequence of grammar rules can be learned automatically from a point cloud. Experiments with simulated and real point clouds show promising results, and indicate the potential of the method in 3D modelling of large indoor environments. Corresponding author

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Quantifying the influence of rain in LiDAR performance

Filgueira

et al. 2017

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Low-cost aerial unit for outdoor inspection of building façades

Roca

Lagüela

Díaz-Vilariño

et al. 2013

Automation in Construction

111

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Metrological comparison between Kinect I and Kinect II sensors

et al. 2015

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3D Modeling of Building Indoor Spaces and Closed Doors from Imagery and Point Clouds

Díaz-Vilariño

Khoshelham

Martínez-Sánchez

et al. 2015

Sensors

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3D models of indoor environments are increasingly gaining importance due to the wide range of applications to which they can be subjected: from redesign and visualization to monitoring and simulation. These models usually exist only for newly constructed buildings; therefore, the development of automatic approaches for reconstructing 3D indoors from imagery and/or point clouds can make the process easier, faster and cheaper. Among the constructive elements defining a building interior, doors are very common elements and their detection can be very useful either for knowing the environment structure, to perform an efficient navigation or to plan appropriate evacuation routes. The fact that doors are topologically connected to walls by being coplanar, together with the unavoidable presence of clutter and occlusions indoors, increases the inherent complexity of the automation of the recognition process. In this work, we present a pipeline of techniques used for the reconstruction and interpretation of building interiors based on point clouds and images. The methodology analyses the visibility problem of indoor environments and goes in depth with door candidate detection. The presented approach is tested in real data sets showing its potential with a high door detection rate and applicability for robust and efficient envelope reconstruction.

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Automatic detection of zebra crossings from mobile LiDAR data

Riveiro

González-Jorge

Martínez-Sánchez

et al. 2015

Optics & Laser Technology

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Automatic thermographic and RGB texture of as-built BIM for energy rehabilitation purposes

Lagüela

Díaz-Vilariño

Martínez

et al. 2013

Automation in Construction

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The Isprs Benchmark on Indoor Modelling

Khoshelham

Díaz-Vilariño

Peter

et al. 2017

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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ABSTRACT:Automated generation of 3D indoor models from point cloud data has been a topic of intensive research in recent years. While results on various datasets have been reported in literature, a comparison of the performance of different methods has not been possible due to the lack of benchmark datasets and a common evaluation framework. The ISPRS benchmark on indoor modelling aims to address this issue by providing a public benchmark dataset and an evaluation framework for performance comparison of indoor modelling methods. In this paper, we present the benchmark dataset comprising several point clouds of indoor environments captured by different sensors. We also discuss the evaluation and comparison of indoor modelling methods based on manually created reference models and appropriate quality evaluation criteria. The benchmark dataset is available for download at:

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