Three Dimensional Change Detection Using Point Clouds: A Review

Kharroubi, Abderrazzaq; Poux, Florent; Ballouch, Zouhair; Hajji, Rafika; Billen, Roland

doi:10.3390/geomatics2040025

Cited by 30 publications

(13 citation statements)

References 147 publications

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“…Our analysis involved conducting multiple scans of the monument from various positions using the Faro Focus 3D LaserScanner. We utilised these measurements as a reference to perform cloud-to-cloud (C2C) algorithms (Kharroubi et al 2022) and assess the distance with multiple techniques (Ingman et al 2020) between the individual metric data obtained from different systems. We used the FARO Focus 3D as the system to provide our reference data due to the high level of retrieved point cloud accuracy.…”

Section: Methods and Equipmentmentioning

confidence: 99%

Assessing accuracy and reliability of modern 3D reconstruction and measurement techniques in the evaluation of Byzantine baths: a case study

Karolos,

Bellos,

Bitharis

et al. 2023

Preprint

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In recent years, sophisticated 3D reconstruction and measuring techniques such as Terrestrial Laser Scanning (TLS), LiDAR applications, and Photogrammetry have gained popularity for surveying and mapping of physical environments. Using a case study of UNESCO-recognized Byzantine Bath monument, we examine the accuracy and reliability of different techniques. To assess the accuracy and dependability of modern 3D reconstruction and measurement systems, we created 3D models of the area of interest using a combination of Terrestrial Laser Scanning, LiDAR technology in conjunction with Simultaneous Localization and Mapping (SLAM) systems and algorithms. The geometric features of the 3D models were evaluated by comparing the data generated by these approaches to ground-truth measurements. With errors ranging from 0.01 to 3.2 cm, our results demonstrated that the majority of the available techniques produced highly accurate and trustworthy 3D models of the monument. The TLS and SLAM approaches performed admirably in terms of capturing fine features and the monument’s geometry. Also, the iPhone solution occasionally was more effective at capturing the surface's geometry, texture and colour. Our work demonstrates the efficacy of modern 3D reconstruction and measurement techniques for surveying and mapping environments with precision and dependability. To evaluate our results, we use open-source algorithms and tools in order to quantify the differences from point cloud to ground truth point cloud in many different scenarios (vertical/horizontal sections and floor analysis on the z-axis component).

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Section: Methods and Equipmentmentioning

confidence: 99%

Assessing accuracy and reliability of modern 3D reconstruction and measurement techniques in the evaluation of Byzantine baths: a case study

Karolos,

Bellos,

Bitharis

et al. 2023

Preprint

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“…Approaches for heterogeneous photographs can deal with large-scale changes but are limited with subtle changes (overviews: [173][174][175]). Other change detection approaches work with 3D geometries (overview: [176]) or segmentation-and feature-based comparisons between different images to identify changes in architectural features [98,130]. The aim is to detect subtle changes in heterogenous historical imagery over time.…”

Section: Timementioning

confidence: 99%

A Digital 4D Information System on the World Scale: Research Challenges, Approaches, and Preliminary Results

Münster,

Maiwald,

Bruschke

et al. 2024

Applied Sciences

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Numerous digital media repositories have been set up during recent decades, each containing plenty of data about historic cityscapes. In contrast, digital 3D reconstructions of no longer extant cityscapes have so far almost solely been performed for specific cases and via manual modelling techniques. Within the Jena4D research group, we are investigating and developing methods and technologies for transferring historical media and their contextual information into 4D models. The next step will be to automate this process and extend it to the world scale. Our team are working on different facets of that endeavor: retrieving images, text, and object data from public sources; crowdsourcing and collecting qualitative data from contests and pupil labs; processing historical plans and photographs to extract spatial data; location-based mobile visualization; and collection-browsing interfaces. This article is intended to highlight (1) current challenges, (2) the state of the art, (3) our approach to 4D modelling and visualization on the world scale, and (4) results from testing demo cases in Dresden, Jena, and Amsterdam.

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“…During Occlusion, point clouds appear incomplete, that is, the point clouds will appear on one scan but not in the other. This paper has addressed this issue of Occlusion by using deep learning to fill in the occluded parts [ 42 ]. This approach depends heavily on voxel-wise completion labels and performs poorly on little, distant objects and cluttered scenes [ 43 ].…”

Section: Segmentationmentioning

confidence: 99%

A Survey on Deep Learning Based Segmentation, Detection and Classification for 3D Point Clouds

Vinodkumar

Karabulut

Avots

et al. 2023

Entropy

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The computer vision, graphics, and machine learning research groups have given a significant amount of focus to 3D object recognition (segmentation, detection, and classification). Deep learning approaches have lately emerged as the preferred method for 3D segmentation problems as a result of their outstanding performance in 2D computer vision. As a result, many innovative approaches have been proposed and validated on multiple benchmark datasets. This study offers an in-depth assessment of the latest developments in deep learning-based 3D object recognition. We discuss the most well-known 3D object recognition models, along with evaluations of their distinctive qualities.

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Three Dimensional Change Detection Using Point Clouds: A Review

Cited by 30 publications

References 147 publications

Assessing accuracy and reliability of modern 3D reconstruction and measurement techniques in the evaluation of Byzantine baths: a case study

Assessing accuracy and reliability of modern 3D reconstruction and measurement techniques in the evaluation of Byzantine baths: a case study

A Digital 4D Information System on the World Scale: Research Challenges, Approaches, and Preliminary Results

A Survey on Deep Learning Based Segmentation, Detection and Classification for 3D Point Clouds

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