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Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions. / Wojnarowski, A. E.; Leonteva, A. B.; Tyurin, S. V.; Tikhonov, S. G.; Artemeva, O. V.

в: International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, Том 42, № 5/W2, 20.09.2019, стр. 95-101.

Результаты исследований: Научные публикации в периодических изданияхстатья в журнале по материалам конференцииРецензирование

Harvard

Wojnarowski, AE, Leonteva, AB, Tyurin, SV, Tikhonov, SG & Artemeva, OV 2019, 'Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions', International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, Том. 42, № 5/W2, стр. 95-101. https://doi.org/10.5194/isprs-archives-XLII-5-W2-95-2019

APA

Wojnarowski, A. E., Leonteva, A. B., Tyurin, S. V., Tikhonov, S. G., & Artemeva, O. V. (2019). Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives, 42(5/W2), 95-101. https://doi.org/10.5194/isprs-archives-XLII-5-W2-95-2019

Vancouver

Wojnarowski AE, Leonteva AB, Tyurin SV, Tikhonov SG, Artemeva OV. Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions. International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives. 2019 Сент. 20;42(5/W2):95-101. https://doi.org/10.5194/isprs-archives-XLII-5-W2-95-2019

Author

Wojnarowski, A. E. ; Leonteva, A. B. ; Tyurin, S. V. ; Tikhonov, S. G. ; Artemeva, O. V. / Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions. в: International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences - ISPRS Archives. 2019 ; Том 42, № 5/W2. стр. 95-101.

BibTeX

@article{45e85a8b8496433084e191b2f848c2fe,
title = "Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions",
abstract = "Monitoring of cracks and deformation joints of buildings and engineering constructions can be performed effectively using contemporary methods of photogrammetry. Our study allowed us to design the technology for such a monitoring. This technology is adapted for use by building operation and building inspection specialists and does not require special knowledge in photogrammetry. The monitoring equipment includes two blocks of photogrammetric deformation marks, a digital camera and processing software. Each block of deformation marks is designed as a plate of 60 by 40 mm size where several dozens of marks are fixed (size of the plate and number of marks may vary). The relative positions of the marks on the plate are determined while block calibration with an accuracy of several microns. While monitoring is performed, two blocks of deformation marks are fixed on both sides of the crack or deformation join. Then marks are photographed. Almost any digital camera is suitable, beginning with smartphone camera and ending with specialized photogrammetric camera. Further processing of collected imagery is performed on the basis of rigorous methods of photogrammetry (specialized software were developed). The processing assumes automatic identification and measurement of marks on digital photographic images with sub-pixel accuracy. Additionally, the photogrammetric calibration and distortion correction are performed for each image. Three-dimensional spatial solution is possible both in the case of single image processing, and in the case of stereopair processing. The dynamics of crack development in three dimensions is determined by the results of several cycles of observations collected over period. Our technology allows to ensure the accuracy of the coordinates and deformations at the level of 0.005-0.020 mm for the photographing distances from 0.1 to 40 m.",
keywords = "Monitoring of Cracks, Photogrammetric Deformation Marks, Photogrammetric Technology",
author = "Wojnarowski, {A. E.} and Leonteva, {A. B.} and Tyurin, {S. V.} and Tikhonov, {S. G.} and Artemeva, {O. V.}",
note = "Publisher Copyright: {\textcopyright} Authors 2019.; 2019 Measurement, Visualisation and Processing in BIM for Design and Construction Management, MVP BIM 2019 ; Conference date: 24-09-2019 Through 25-09-2019",
year = "2019",
month = sep,
day = "20",
doi = "10.5194/isprs-archives-XLII-5-W2-95-2019",
language = "English",
volume = "42",
pages = "95--101",
journal = "International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences",
issn = "1682-1750",
publisher = "International Society for Photogrammetry and Remote Sensing",
number = "5/W2",

}

RIS

TY - JOUR

T1 - Photogrammetric technology for remote high-precision 3d monitoring of cracks and deformation joints of buildings and constructions

AU - Wojnarowski, A. E.

AU - Leonteva, A. B.

AU - Tyurin, S. V.

AU - Tikhonov, S. G.

AU - Artemeva, O. V.

N1 - Publisher Copyright: © Authors 2019.

PY - 2019/9/20

Y1 - 2019/9/20

N2 - Monitoring of cracks and deformation joints of buildings and engineering constructions can be performed effectively using contemporary methods of photogrammetry. Our study allowed us to design the technology for such a monitoring. This technology is adapted for use by building operation and building inspection specialists and does not require special knowledge in photogrammetry. The monitoring equipment includes two blocks of photogrammetric deformation marks, a digital camera and processing software. Each block of deformation marks is designed as a plate of 60 by 40 mm size where several dozens of marks are fixed (size of the plate and number of marks may vary). The relative positions of the marks on the plate are determined while block calibration with an accuracy of several microns. While monitoring is performed, two blocks of deformation marks are fixed on both sides of the crack or deformation join. Then marks are photographed. Almost any digital camera is suitable, beginning with smartphone camera and ending with specialized photogrammetric camera. Further processing of collected imagery is performed on the basis of rigorous methods of photogrammetry (specialized software were developed). The processing assumes automatic identification and measurement of marks on digital photographic images with sub-pixel accuracy. Additionally, the photogrammetric calibration and distortion correction are performed for each image. Three-dimensional spatial solution is possible both in the case of single image processing, and in the case of stereopair processing. The dynamics of crack development in three dimensions is determined by the results of several cycles of observations collected over period. Our technology allows to ensure the accuracy of the coordinates and deformations at the level of 0.005-0.020 mm for the photographing distances from 0.1 to 40 m.

AB - Monitoring of cracks and deformation joints of buildings and engineering constructions can be performed effectively using contemporary methods of photogrammetry. Our study allowed us to design the technology for such a monitoring. This technology is adapted for use by building operation and building inspection specialists and does not require special knowledge in photogrammetry. The monitoring equipment includes two blocks of photogrammetric deformation marks, a digital camera and processing software. Each block of deformation marks is designed as a plate of 60 by 40 mm size where several dozens of marks are fixed (size of the plate and number of marks may vary). The relative positions of the marks on the plate are determined while block calibration with an accuracy of several microns. While monitoring is performed, two blocks of deformation marks are fixed on both sides of the crack or deformation join. Then marks are photographed. Almost any digital camera is suitable, beginning with smartphone camera and ending with specialized photogrammetric camera. Further processing of collected imagery is performed on the basis of rigorous methods of photogrammetry (specialized software were developed). The processing assumes automatic identification and measurement of marks on digital photographic images with sub-pixel accuracy. Additionally, the photogrammetric calibration and distortion correction are performed for each image. Three-dimensional spatial solution is possible both in the case of single image processing, and in the case of stereopair processing. The dynamics of crack development in three dimensions is determined by the results of several cycles of observations collected over period. Our technology allows to ensure the accuracy of the coordinates and deformations at the level of 0.005-0.020 mm for the photographing distances from 0.1 to 40 m.

KW - Monitoring of Cracks

KW - Photogrammetric Deformation Marks

KW - Photogrammetric Technology

UR - http://www.scopus.com/inward/record.url?scp=85074672652&partnerID=8YFLogxK

U2 - 10.5194/isprs-archives-XLII-5-W2-95-2019

DO - 10.5194/isprs-archives-XLII-5-W2-95-2019

M3 - Conference article

AN - SCOPUS:85074672652

VL - 42

SP - 95

EP - 101

JO - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences

JF - International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences

SN - 1682-1750

IS - 5/W2

T2 - 2019 Measurement, Visualisation and Processing in BIM for Design and Construction Management, MVP BIM 2019

Y2 - 24 September 2019 through 25 September 2019

ER -

ID: 99403140