Standard

The Tamchinskiy deer stone : Documenting megalithic objects. / Kazakov, Vladislav V.; Simukhin, Aleksandr; Kovalev, Vasiliy S. и др.

в: Siberian Historical Research, № 3, 09.2019, стр. 141-167.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Kazakov, VV, Simukhin, A, Kovalev, VS, Marnuev, PE, Namsaraev, D & Lbova, L 2019, 'The Tamchinskiy deer stone: Documenting megalithic objects', Siberian Historical Research, № 3, стр. 141-167. https://doi.org/10.17223/2312461X/25/8

APA

Kazakov, V. V., Simukhin, A., Kovalev, V. S., Marnuev, P. E., Namsaraev, D., & Lbova, L. (2019). The Tamchinskiy deer stone: Documenting megalithic objects. Siberian Historical Research, (3), 141-167. https://doi.org/10.17223/2312461X/25/8

Vancouver

Kazakov VV, Simukhin A, Kovalev VS, Marnuev PE, Namsaraev D, Lbova L. The Tamchinskiy deer stone: Documenting megalithic objects. Siberian Historical Research. 2019 сент.;(3):141-167. doi: 10.17223/2312461X/25/8

Author

Kazakov, Vladislav V. ; Simukhin, Aleksandr ; Kovalev, Vasiliy S. и др. / The Tamchinskiy deer stone : Documenting megalithic objects. в: Siberian Historical Research. 2019 ; № 3. стр. 141-167.

BibTeX

@article{b890e098d8a44c93be4c4b71d45375c3,
title = "The Tamchinskiy deer stone: Documenting megalithic objects",
abstract = "Through the example of the Tamchinskiy deer stone in the Transbaikal region, the article describes a photogrammetry-based methodology for documenting steles with reliefs, and offers a full description of the Tamchinskiy monument, including stylistic features of the carved images on its planes. The method of indoors semi-automatic digital image construction used in topography has been tested. The approach consists in 3D-modelling of an object using SfM-photogrammetry and creating a DEM-model of the object's surfaces, consistently applying SEW and Canny Edge Detection algorithms for image production. The digital images obtained in this way allow specification of visual details and are used to produce final images, which, due to orthonormal images used as the source layer, do not exhibit any geometric distortions, a result difficult to achieve with other image drawing techniques. This methodology is highly accurate and non-invasive and allows creation of digital models that help solve subsequent research tasks, such as object dating, creating images, as well as measuring distances, depth, and shape of any marks left by tools with which images were made; it also enables morphometric analysis. Such 3D models can provide information for monitoring purposes and for research on degradation processes, and can be made available to the public on the Internet, printed out, or integrated into virtual 3D scenes.",
keywords = "documentation of archaeological objects, photogrammetry, deer stone, relief, Mongolia and Transbaikal region, VISUALIZATION, Deer stone, Documentation of archaeological objects, Mongolia, Photogrammetry, Relief, Transbaikal region",
author = "Kazakov, {Vladislav V.} and Aleksandr Simukhin and Kovalev, {Vasiliy S.} and Marnuev, {Pavel E.} and Dashinima Namsaraev and Lyudmila Lbova",
note = "Казаков В.В., Симухин А.И., Ковалев В.С., Марнуев П.Е., Намсараев Д.В., Лбова Л.В. Тамчинский оленный камень: опыт документирования мегалитических объектов // Сибирские исторические исследования. - 2019. - № 3. - С. 141-167",
year = "2019",
month = sep,
doi = "10.17223/2312461X/25/8",
language = "English",
pages = "141--167",
journal = "Siberian Historical Research",
issn = "2312-461X",
publisher = "TOMSK STATE UNIV",
number = "3",

}

RIS

TY - JOUR

T1 - The Tamchinskiy deer stone

T2 - Documenting megalithic objects

AU - Kazakov, Vladislav V.

AU - Simukhin, Aleksandr

AU - Kovalev, Vasiliy S.

AU - Marnuev, Pavel E.

AU - Namsaraev, Dashinima

AU - Lbova, Lyudmila

N1 - Казаков В.В., Симухин А.И., Ковалев В.С., Марнуев П.Е., Намсараев Д.В., Лбова Л.В. Тамчинский оленный камень: опыт документирования мегалитических объектов // Сибирские исторические исследования. - 2019. - № 3. - С. 141-167

PY - 2019/9

Y1 - 2019/9

N2 - Through the example of the Tamchinskiy deer stone in the Transbaikal region, the article describes a photogrammetry-based methodology for documenting steles with reliefs, and offers a full description of the Tamchinskiy monument, including stylistic features of the carved images on its planes. The method of indoors semi-automatic digital image construction used in topography has been tested. The approach consists in 3D-modelling of an object using SfM-photogrammetry and creating a DEM-model of the object's surfaces, consistently applying SEW and Canny Edge Detection algorithms for image production. The digital images obtained in this way allow specification of visual details and are used to produce final images, which, due to orthonormal images used as the source layer, do not exhibit any geometric distortions, a result difficult to achieve with other image drawing techniques. This methodology is highly accurate and non-invasive and allows creation of digital models that help solve subsequent research tasks, such as object dating, creating images, as well as measuring distances, depth, and shape of any marks left by tools with which images were made; it also enables morphometric analysis. Such 3D models can provide information for monitoring purposes and for research on degradation processes, and can be made available to the public on the Internet, printed out, or integrated into virtual 3D scenes.

AB - Through the example of the Tamchinskiy deer stone in the Transbaikal region, the article describes a photogrammetry-based methodology for documenting steles with reliefs, and offers a full description of the Tamchinskiy monument, including stylistic features of the carved images on its planes. The method of indoors semi-automatic digital image construction used in topography has been tested. The approach consists in 3D-modelling of an object using SfM-photogrammetry and creating a DEM-model of the object's surfaces, consistently applying SEW and Canny Edge Detection algorithms for image production. The digital images obtained in this way allow specification of visual details and are used to produce final images, which, due to orthonormal images used as the source layer, do not exhibit any geometric distortions, a result difficult to achieve with other image drawing techniques. This methodology is highly accurate and non-invasive and allows creation of digital models that help solve subsequent research tasks, such as object dating, creating images, as well as measuring distances, depth, and shape of any marks left by tools with which images were made; it also enables morphometric analysis. Such 3D models can provide information for monitoring purposes and for research on degradation processes, and can be made available to the public on the Internet, printed out, or integrated into virtual 3D scenes.

KW - documentation of archaeological objects

KW - photogrammetry

KW - deer stone

KW - relief

KW - Mongolia and Transbaikal region

KW - VISUALIZATION

KW - Deer stone

KW - Documentation of archaeological objects

KW - Mongolia

KW - Photogrammetry

KW - Relief

KW - Transbaikal region

UR - http://www.scopus.com/inward/record.url?scp=85082115685&partnerID=8YFLogxK

UR - https://www.elibrary.ru/item.asp?id=41203416

UR - https://apps.webofknowledge.com/full_record.do?product=WOS&search_mode=GeneralSearch&qid=35&SID=F3tzSHveBGcusE3VtLW&page=1&doc=1&cacheurlFromRightClick=no

U2 - 10.17223/2312461X/25/8

DO - 10.17223/2312461X/25/8

M3 - Article

SP - 141

EP - 167

JO - Siberian Historical Research

JF - Siberian Historical Research

SN - 2312-461X

IS - 3

ER -

ID: 23649343