Road Mapping in Lidar Images Using a Joint-Task Dense Dilated Convolutions Merging Network

Liu, Qinghui; Kampffmeyer, Michael; Jenssen, Robert; Salberg, Arnt-Børre

doi:10.1109/igarss.2019.8900082

Cited by 4 publications

(3 citation statements)

References 15 publications

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“…In the final stage, road centerlines are extracted by using a Voronoi-diagram-based approach and then by removing dangle lines. Liu et al [35] specifically focused on mapping roads that are used for timber transport. In this work, a Dense Dilated Convolutions Merging Network (DDCM-Net) is used to detect roads in LiDAR data.…”

Section: Overview Of Automatic Road Extraction Methods From Lidar Datamentioning

confidence: 99%

Roads Detection and Parametrization in Integrated BIM-GIS Using LiDAR

2020

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Building Information Modeling (BIM) has a crucial role in smart road applications, not only limited to the design and construction stages, but also to traffic monitoring, autonomous vehicle navigation, road condition assessment, and real-time data delivery to drivers, among others. Point clouds collected through LiDAR are a powerful solution to capture as-built conditions, notwithstanding the lack of commercial tools able to automatically reconstruct road geometry in a BIM environment. This paper illustrates a two-step procedure in which roads are automatically detected and classified, providing GIS layers with basic road geometry that are turned into parametric BIM objects. The proposed system is an integrated BIM-GIS with a structure based on multiple proposals, in which a single project file can handle different versions of the model using a variable level of detail. The model is also refined by adding parametric elements for buildings and vegetation. Input data for the integrated BIM-GIS can also be existing cartographic layers or outputs generated with algorithms able to handle LiDAR data. This makes the generation of the BIM-GIS more flexible and not limited to the use of specific algorithms for point cloud processing.

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Section: Overview Of Automatic Road Extraction Methods From Lidar Datamentioning

confidence: 99%

Roads Detection and Parametrization in Integrated BIM-GIS Using LiDAR

2020

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“…In White et al (2010), careful manual delineation of haul roads in DTM view show comparable results to accurate field surveys. Unsupervised solutions based on DTM analysis have also been developed, using a morphological classification and stochastic geometry tools to build and assemble a graph structure (Ferraz et al, 2016), or convolution neural network architectures (Salberg et al, 2017, Liu et al, 2019. But all these tools incorporate the interpolation errors.…”

Section: Limits Of Existing Approachesmentioning

confidence: 99%

Live Extraction of Curvilinear Structures From Lidar Raw Data

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2020

ISPRS Ann. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. In this paper, a general framework is proposed for live extraction of curvilinear structures such as roads or ridges from airborne LiDAR raw data, in the scope of present and past man-environment interaction studies. Unlike most approaches in literature, classified ground points are directly processed here, rather than derived products such as digital terrain models (DTM). This allows to detect possible lacks of ground points due to LiDAR signal occlusions caused by dense coniferous canopies. An efficient and simple solution based on discrete geometry tools is described for supervised context in which the user just indicates where the extraction should take place. Fast response times are required to ensure a good man-system interaction.The framework performance is first evaluated on the example of the extraction of forest roads in a mountainous area, as these objects are well marked in the DTM and hence provide some kind of ground truth. Good execution time and accuracy level are reported. Then this framework is applied to the detection of prominent curvilinear structures, which are much more diffuse objects, but of greater interest than roads in the scope of the present project. Achieved results show high potential of the proposed approach to help archaeologists and geomorphologists in finding areas of interest for future prospection using LiDAR data.

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“…In the literature, several methods have been developed for road extraction from LiDAR data [1,2,6,8,10,11]. Most of them rely on the shaded DTM analysis, using standard image processing tools.…”

Section: Introductionmentioning

confidence: 99%

Automatic Forest Road Extraction from LiDAR Data of Mountainous Areas

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2021

Lecture Notes in Computer Science

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In this paper, a framework is proposed to extract forest roads from LiDAR (Light Detection and Ranging) data in mountainous areas. For that purpose, an efficient and simple solution based on discrete geometry and mathematical morphology tools is proposed. The framework is composed of two steps: (i) detecting road candidates in DTM (Digital Terrain Model) views using a mathematical morphology filter and a fast blurred segment detector in order to select a set of road seeds; (ii) extracting road sections from the obtained seeds using only the raw LiDAR points to cope with DTM approximations. For the second step, a previous tool for fast extraction of linear structures directly from ground points was adapted to automatically process each seed. It first performs a recognition of the road structure under the seed. In case of success, the structure is tracked and extended as far as possible on each side of the segment before post-processing validation and cleaning. Experiments on real data over a wide mountain area (about 78 km 2 ) have been conducted to validate the proposed method.

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Road Mapping in Lidar Images Using a Joint-Task Dense Dilated Convolutions Merging Network

Cited by 4 publications

References 15 publications

Roads Detection and Parametrization in Integrated BIM-GIS Using LiDAR

Roads Detection and Parametrization in Integrated BIM-GIS Using LiDAR

Live Extraction of Curvilinear Structures From Lidar Raw Data

Automatic Forest Road Extraction from LiDAR Data of Mountainous Areas

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