Ultra close-range digital photogrammetry in skeletal anthropology: A systematic review

Lussu, Paolo; Marini, Elisabetta

doi:10.1371/journal.pone.0230948

Cited by 12 publications

(10 citation statements)

References 71 publications

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“…Errors in all 3D digitisation methods are inevitable but several studies testing the error show that it is so low that it should not affect results (Mendřický et al 2016(Mendřický et al , 2018Sužiedelyte-Visockiene et al 2019;. Therefore, the proposed method is affected by the limits inherent in all photogrammetric models that have proven to be negligible (Morgan et al 2019;Lussu and Marini 2020;Katz and Friess 2014;Silvester and Hillson 2020). To support our standardisation goal, statistical distribution analysis was carried out on the scale error and the spread between the measurements taken on the physical skulls and the 3D reconstruction.…”

Section: Resultsmentioning

confidence: 99%

“…Currently, photogrammetry is an affordable, powerful, readily available, and versatile technique for surface data acquisition, which is able to guarantee levels of detail and precision equivalent to other tools that are generally more expensive and bulkier such as a laser scanner or CT (De Reu et al 2013;Jurda Ubanova 2016;Rangel-de Lázaro et al 2021: White and. Nowadays, its wide use in biological anthropology (Bennett 2015;Katz and Friess 2014;Morgan et al 2019;Perevozchikov 2019;Lussu and Marini 2020;Omari et al 2021) is due to the increasing demand of three-dimensional copies of anatomical models supported by the availability of programs and high-performance personal computers and digital cameras that can generate high-resolution models.…”

Section: Introductionmentioning

confidence: 99%

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A detailed method for creating digital 3D models of human crania: an example of close-range photogrammetry based on the use of Structure-from-Motion (SfM) in virtual anthropology

Lauria

Sìneo

Ficarra

2022

Archaeol Anthropol Sci

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Photogrammetry is a survey technique that allows for the building of three-dimensional (3D) models from digitized output data. In recent years, it has been confirmed as one of the best techniques to build 3D models widely used in several fields such as life and earth sciences, medicine, architecture, topography, archaeology, crime scene investigation, cinematography, and engineering. Close-range photogrammetry, in particular, has several applications in osteological studies allowing to create databases of 3D bone models available for subsequent qualitative and quantitative studies. This work provides a step-by-step guide of the photo acquisition protocol and the photogrammetric workflow for creating high-resolution 3D digital models of human crania. Our method, based on Structure-from-Motion (SfM), uses single-camera photogrammetry to capture chromatic details and reconstruct shape with a scale error of less than 1 mm. Using relatively inexpensive and easily transportable equipment and a quick and simple protocol, realistic and accurate models can be be produced with minimal effort.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A detailed method for creating digital 3D models of human crania: an example of close-range photogrammetry based on the use of Structure-from-Motion (SfM) in virtual anthropology

Lauria

Sìneo

Ficarra

2022

Archaeol Anthropol Sci

View full text Add to dashboard Cite

show abstract

“…close-range digital photogrammetry [45] and, for the sake of this contribution, it was tested on six inscribed artifacts (two in Cretan Hieroglyphic, three in Linear A, one uncertain), to assess the accuracy and the resolution of the 3D models and to evaluate the reconstruction of the signs. Further details on the objects, whose average size ranges approximately from 1 to 3 cm, are given in Section 4.1.…”

Section: Introductionmentioning

confidence: 99%

A high-resolution photogrammetric workflow based on focus stacking for the 3D modeling of small Aegean inscriptions

Ravanelli

Lastilla

Ferrara

2022

Journal of Cultural Heritage

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“…Nowadays, 3D scanning and photogrammetry techniques are very useful to build three-dimensional digital models in different fields such as engineering, where they are applied in the remodelling and maintenance of industrial plants [ 1 ] or band vehicle modelling [ 2 ]. In architecture, for the study of structures [ 3 ], creating models of buildings [ 4 ], or seismic studies [ 5 ]; in archaeology, to compare current and ancient landscapes [ 6 ], in reconstruction processes [ 7 ], and maritime archaeology [ 8 ]; or in medicine, diagnosis of pathologies [ 9 ], anatomical modelling [ 10 , 11 ], virtual reality [ 12 ] or odontology [ 13 ] among others applications.…”

Section: Introductionmentioning

confidence: 99%

Low-Cost Prototype to Automate the 3D Digitization of Pieces: An Application Example and Comparison

González-Merino¹,

Sánchez‐López

Romero

et al. 2021

Sensors

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This work is aimed at describing the design of a mechanical and programmable 3D capturing system to be used by either 3D scanner or DSLR camera through photogrammetry. Both methods are widely used in diverse areas, from engineering, architecture or archaeology, up to the field of medicine; but they also entail certain disadvantages, such as the high costs of certain equipment, such as scanners with some precision, and the need to resort to specialized operatives, among others. The purpose of this design is to create a robust, precise and cost-effective system that improves the limitations of the present equipment on the market, such as robotic arms or rotary tables. For this reason, a preliminary study has been conducted to analyse the needs of improvement, later, we have focused on the 3D design and prototyping. For its construction, there have been used the FDM additive technology and structural components that are easy to find in the market. With regards to electronic components, basic electronics and Arduino-based 3D printers firmware have been selected. For system testing, the capture equipment consists of a Spider Artec 3D Scanner and a Nikon 5100 SLR Camera. Finally, 3D models have been developed by comparing the 3D meshes obtained by the two methods, obtaining satisfactory results.

show abstract

Ultra close-range digital photogrammetry in skeletal anthropology: A systematic review

Cited by 12 publications

References 71 publications

A detailed method for creating digital 3D models of human crania: an example of close-range photogrammetry based on the use of Structure-from-Motion (SfM) in virtual anthropology

A detailed method for creating digital 3D models of human crania: an example of close-range photogrammetry based on the use of Structure-from-Motion (SfM) in virtual anthropology

A high-resolution photogrammetric workflow based on focus stacking for the 3D modeling of small Aegean inscriptions

Low-Cost Prototype to Automate the 3D Digitization of Pieces: An Application Example and Comparison

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