Survey on 3D Surface Reconstruction

doi:10.3745/jips.01.0010

Cited by 16 publications

(9 citation statements)

References 51 publications

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“…From the work of Khatamian et al in [71], the surface reconstructed can be organized into two categories: explicit and implicit surfaces.…”

Section: Meshing Reconstructionmentioning

confidence: 99%

“…In parametric surface reconstruction, B-Spline, NURBS, plane, spheres, and ellipsoids are some of the primitive models used to enclose a random set of points to represent surfaces. However, complex surfaces can be hard to represent using this method as a single primitive model as it might not encompass all of the points and might require multiple primitives to represent the object [71].…”

Section: Meshing Reconstructionmentioning

confidence: 99%

“…The latter surface representation uses a more intuitive technique [71]. Triangulated reconstructions represent surfaces by connecting neighbor points using tethers forming triangles [84].…”

Section: Meshing Reconstructionmentioning

confidence: 99%

“…The second type of surface reconstruction uses mathematical basis functions to estimate the object's surface based on the input data [71,72]. As such, this method exhibits certain difficulties when representing edges or corners due to the sharp changes not making it suitable for complex surface reconstructions.…”

Section: Meshing Reconstructionmentioning

confidence: 99%

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How to Build a 2D and 3D Aerial Multispectral Map?—All Steps Deeply Explained

Vong

Matos-Carvalho

Toffanin³

et al. 2021

Remote Sensing

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The increased development of camera resolution, processing power, and aerial platforms helped to create more cost-efficient approaches to capture and generate point clouds to assist in scientific fields. The continuous development of methods to produce three-dimensional models based on two-dimensional images such as Structure from Motion (SfM) and Multi-View Stereopsis (MVS) allowed to improve the resolution of the produced models by a significant amount. By taking inspiration from the free and accessible workflow made available by OpenDroneMap, a detailed analysis of the processes is displayed in this paper. As of the writing of this paper, no literature was found that described in detail the necessary steps and processes that would allow the creation of digital models in two or three dimensions based on aerial images. With this, and based on the workflow of OpenDroneMap, a detailed study was performed. The digital model reconstruction process takes the initial aerial images obtained from the field survey and passes them through a series of stages. From each stage, a product is acquired and used for the following stage, for example, at the end of the initial stage a sparse reconstruction is produced, obtained by extracting features of the images and matching them, which is used in the following step, to increase its resolution. Additionally, from the analysis of the workflow, adaptations were made to the standard workflow in order to increase the compatibility of the developed system to different types of image sets. Particularly, adaptations focused on thermal imagery were made. Due to the low presence of strong features and therefore difficulty to match features across thermal images, a modification was implemented, so thermal models could be produced alongside the already implemented processes for multispectral and RGB image sets.

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“…From the work of Khatamian et al in [71], the surface reconstructed can be organized into two categories: explicit and implicit surfaces.…”

Section: Meshing Reconstructionmentioning

confidence: 99%

Section: Meshing Reconstructionmentioning

confidence: 99%

“…The latter surface representation uses a more intuitive technique [71]. Triangulated reconstructions represent surfaces by connecting neighbor points using tethers forming triangles [84].…”

Section: Meshing Reconstructionmentioning

confidence: 99%

Section: Meshing Reconstructionmentioning

confidence: 99%

See 2 more Smart Citations

How to Build a 2D and 3D Aerial Multispectral Map?—All Steps Deeply Explained

Vong

Matos-Carvalho

Toffanin³

et al. 2021

Remote Sensing

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show abstract

“…The scanning of real objects is affected by various problems that make it difficult to perform the segmentation without uncertainty. The common factors that produce ambiguity in the recognition process of classification are point location noise [9][10][11], mostly from the uneven part of the surface, the thermal noise of CCD/CMOS detectors, optical phenomena [12], and the coarse representation of continuous surfaces due to triangular approximations [13]. The most common approaches for the geometric segmentation process are edge-based (curvature), region-based (density, smoothness, similarity), model-based, and hybrid methods, where both edge-based and region-based segmentation are used [14].…”

Section: Introductionmentioning

confidence: 99%

Segmentation of Change in Surface Geometry Analysis for Cultural Heritage Applications

Saha

Martusewicz

Streeton

et al. 2021

Sensors

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This work proposes a change-based segmentation method for applications to cultural heritage (CH) imaging to perform monitoring and assess changes at each surface point. It can be used as a support or component of the 3D sensors to analyze surface geometry changes. In this research, we proposed a new method to identify surface changes employing segmentation based on 3D geometrical data acquired at different time intervals. The geometrical comparison was performed by calculating point-to-point Euclidean distances for each pair of surface points between the target and source geometry models. Four other methods for local distance measurement were proposed and tested. In the segmentation method, we analyze the local histograms of the distances between the measuring points of the source and target models. Then the parameters of these histograms are determined, and predefined classes are assigned to target surface points. The proposed methodology was evaluated by considering two different case studies of restoration issues on CH surfaces and monitoring them over time. The results were presented with a colormap visualization for each category of the detected change in the analysis. The proposed segmentation method will help in the field of conservation and restoration for the documentation and quantification of geometrical surface change information. This analysis can help in decision-making for the assessment of damage and potential prevention of further damage, and the interpretation of measurement results.

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Real-Time 3D Reconstruction for Mixed Reality Telepresence Using Multiple Depth Sensors

Ishigaki

Ismail

2023

Communications in Computer and Information Science

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Survey on 3D Surface Reconstruction

Cited by 16 publications

References 51 publications

How to Build a 2D and 3D Aerial Multispectral Map?—All Steps Deeply Explained

How to Build a 2D and 3D Aerial Multispectral Map?—All Steps Deeply Explained

Segmentation of Change in Surface Geometry Analysis for Cultural Heritage Applications

Real-Time 3D Reconstruction for Mixed Reality Telepresence Using Multiple Depth Sensors

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