Article | REF: RE187 V1

3D LiDAR: acquisition techniques and industrial applications

Authors: Beatriz MARCOTEGUI, Andrés SERNA

Publication date: July 10, 2023

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ABSTRACT

LiDAR scanners, in constant evolution, allow the acquisition of accurate 3D data. Coupled with GNSS and inertial measurement units, becoming also more and more efficient, they allow for large-scale, fast and accurate creation of 3D digital twins. One last element is necessary to create a myriad of opportunities: the analysis of the large amount of data acquired in order to extract useful information. This article presents the principles of LiDAR acquisition, the processing to extract relevant information, and an overview of the methodologies used for this purpose. Finally, some applications illustrate the many possibilities opened by this technology.

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AUTHORS

  • Beatriz MARCOTEGUI: Teacher - Mines Paris, PSL University, Center for Mathematical Morphology (CMM), - Fontainebleau, France

  • Andrés SERNA: CEO & co-founder - The Cross Product (TCP), Fontainebleau, France

 INTRODUCTION

3D technology, and LiDAR in particular, is benefiting from a strong acceleration in both software and hardware. The autonomous car market, estimated to be worth several billion euros, has seen the emergence of dozens of players offering increasingly precise and less expensive solutions. At the same time, recent advances in the analysis of massive data, notably with artificial intelligence, are opening the door to a wide range of applications thanks to precise, large-scale processing.

This article reviews advances in this technology to help the reader assess the suitability of LiDAR for an industrial project.

The article is organized as follows. Section 1 describes the different techniques for acquiring 3D information, and the advantages and disadvantages of each. The 2 section focuses on LiDAR, which is the most powerful and widespread technology available today. The different configurations of the acquisition system are presented, from the point of view of mounting on a fixed tripod or onboard a vehicle, to the frequency used and the beam steering technology. Once the point cloud has been acquired, the 3 section presents the analysis stages of a processing chain from raw cloud to final application, as well as the techniques used to extract relevant information...

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KEYWORDS

classification   |   modelling 3D   |   lidar   |   digital twin   |   3D scanner


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3D LiDAR: acquisition techniques and industrial applications