REAL-TIME MONITORING DEFORMATION OF BUILDING USING PHOTOGRAPHY DYNAMIC MONITORING SYSTEM

Authors

  • Yongquan Ge Shandong Jianzhu University, College of Surveying and Geo-Informatic, Fengming Road 1000, 250101 Jinan, Shandong, China
  • Chengxin Yu Shandong Jianzhu University, Business School, Fengming Road 1000, 250101 Jinan, Shandong, China
  • Tonglong Zhao Shandong Jianzhu University, College of Surveying and Geo-Informatic, Fengming Road 1000, 250101 Jinan, Shandong, China
  • Xiaodong Liu Shandong Jianzhu University, College of Continuing Education, Shandong Jianzhu University, Fengming Road 1000, 250101 Jinan, Shandong, China

DOI:

https://doi.org/10.14311/CEJ.2021.01.0018

Keywords:

Close-range photogrammetry, Dynamic deformation, The spatial structure, Z-MP (zero-centered motion parallax) method, PDMS (Photography Dynamic Monitoring System), Tennis stadium

Abstract

The spatial structure building is a type of building system; it is necessary to monitor deformation to determine its stability and robustness. Under the dynamic deformation of structures, it is challenging to determine appropriate zero image (the reference image) if we use the PST-IM- MP (photograph scale transformation-image matching-motion parallax) method to obtain the deformation of structures. This paper offers the Z-MP (zero-centered motion parallax) method to solve these problems and offers PDMS (Photography Dynamic Monitoring System) based on the digital photography system to monitor the dynamic deformation of the tennis stadium located in Jinan Olympic Sports Center. The results showed that the spatial structures of the tennis stadium were robust, and the deformations were elastic and within the permissible value. Compared with the PST-IM-MP method, the Z-MP method is more suitable for deformation monitoring structures under real-time deformation. This paper indicates PDMS has advantages of the simplicity of operations, automation, and the ability of non-contact dynamic deformation monitoring for multiple points in a short period. In the future, it will have broader application prospects.

Downloads

Download data is not yet available.

References

Asian Journal of Civil Engineering. Vol. 20. No. 8: 1137-1152. doi: 10.1007/s42107-019-00168-4

Dong S.L., Luo Y.Z., Zhao Y., 2005. Practical application and research advances of long-span space structures. SPATIAL STRUCTURES. Vol. 11. No. 4: 3-10. doi: 10.3969/j.issn.1006-6578.2005.04.001

Investigation C., 2009. On the roof collapse at Stadium Sultan Mizan Zainal Abidin: Final report on the roof collapse at Stadium Sultan Mizan Zainal Abidin, Terengganu, Malaysia.

Board D.S., 2012. Roof collapse during extension work at the stadium of FC Twente in Enshede Netherlands.

Department B., 2017. Final investigation report on the collapse of roof structure of Chan Tai Ho Multipurpose Hall of HU Fa Kuang Sports center of City University of Hong Kong at Chee Avenue, Kowloon

Luo Y.Z., Shen Y.B., Tong R.F., Wang X.B., 2009. Health Monitoring and Early Warning Health Monitoring and Early Warning Technology in Spatial Structure. CONSTRUCTION TECHNOLOGY. Vol. 38. No. 03: 4-8.

Sabamehr A., Lim C., Bagchi A., 2018. System identification and model updating of highway bridges using ambient vibration tests. Journal of Civil Structural Health Monitoring. Vol. 8. No.755-771. doi: 10.1007/s13349-018-0304-5

Doebling S.W., Farrar C.R., Prime M.B., Shevitz D.W., 1996. Damage Identification and Health Monitoring of Structural and Mechanical Systems from Changes in Their Vibration Characteristics: A Literature Review. Vol. doi: 10.2172/249299

Goda I., L'Hostis G., Guerlain P., 2019. In-situ non-contact 3D optical deformation measurement of large capacity composite tank based on close-range photogrammetry. Optics and Lasers in Engineering. Vol. 119. No.37-55. doi: 10.1016/j.optlaseng.2019.02.006

Zhou X., 2010. STRUCTURAL DESIGN AND HEALTH MONITORING OF JINAN OLYMPIC SPORTS CENTER. Engineering Mechanics. No. A02: 105-113.

Xu J., Xi N., Zhang C., Zhao J.G., Gao B.T., Shi Q., 2011. Rapid 3D surface profile measurement of industrial parts using two-level structured light patterns. Optics and Lasers in Engineering. Vol. 49. No. 7: 907-914. doi: 10.1016/j.optlaseng.2011.02.010

Xu X.Y., Yang H., Neumann I., 2018. Monotonic loads experiment for investigation of composite structure based on terrestrial laser scanner measurement. Composite Structures. Vol. 183. No.563-567. doi: 10.1016/j.compstruct.2017.07.001

Cuypers W., Van Gestel N., Voet A., Kruth J.P., Mingneau J., Bleys P., 2009. Optical measurement techniques for mobile and large-scale dimensional metrology. Optics and Lasers in Engineering. Vol. 47. No. 3: 292-300. doi: https://doi.org/10.1016/j.optlaseng.2008.03.013

Urbanová P., Hejna P., Jurda M., 2015. Testing photogrammetry-based techniques for three-dimensional surface documentation in forensic pathology. Forensic Science International. Vol. 250. No.77-86. doi: 10.1016/j.forsciint.2015.03.005

Yu C.X., Song C.Z., Tong Y.B., Li X.L., Quan J., Xu F., 2001. Digital Photographic and Computer Technology in Real-time Monitored Structural Deformation. JOURNAL OF JINAN UNIVERSITY. Vol. 15. No. 3: 232-234. doi: 10.3969/j.issn.1671-3559.2001.03.014

Chen M.Z., 2012. The Application and Comparison of Digital Ground Photogrammetry Technology for Bridge Safety Monitoring. Applied Mechanics and Materials. Vol. 170-173. No.2979-2986. doi: 10.4028/www.scientific.net/AMM.170-173.2979

Zhang G.J., Yu C.X., Guo G.L., 2017. Application of digital close-range photogrammetry in the deformation observation of check gate. JOURNAL OF SHANDONG UNIVERSITY (ENGINEERING SCIENCE). Vol. 47. No. 06: 46-51.

Yu C.X., Zhang G.J., Ding X.H., Zhao Y.Q., Guo G.L., 2019. MONITORING DYNAMIC DEFORMATION OF SHUTTLE STEEL SHELVES BY DIGITAL PHOTOGRAPHY. Civil Engineering Journal. Vol. 28. No. 2: 136-150. doi: 10.14311/CEJ.2019.02.0012

Zhang G.J., Guo G.L., Yu C.X., Li L., Wang X., 2018. Monitoring Instantaneous Dynamic Displacements of Masonry Walls in Seismic Oscillation Outdoors by Monocular Digital Photography. Mathematical Problems in Engineering. Vol. 2018. 1-15. doi: 10.1155/2018/4316087

Yu C.X., Zhang G.J., Ding X.H., Zhao Y.Q., Guo G.L., 2019. MONITORING DYNAMIC GLOBAL DEFLECTION OF A BRIDGE BY MONOCULAR DIGITAL PHOTOGRAPHY. Civil Engineering Journal. Vol. 27. No. 14: 168-182. doi: 10.14311/CEJ.2018.02.0014

Wang P.J.,Xu Y.M.: photogrammetry. Wuhan university press: Wuhan (2016)

Zhou Y., Fu X.Y., Yang X.B., 2008. Structural design of Tennis Gymnasium of Ji Nan Olympic Sports Center. SPATIALS TRUCTURES. Vol. 14. No. 04: 26-31.

GB50017-2017, 2017. Steel structure design standard. China Standards Press.

Feng W.H., 2002, Close Range Photogrammetry: Measuring an Object Shape and Motion State Imaging Method, section 8.5 (Wuhan University Press) 179 pp.

Ge Y.Q., Yu C.X., Liu X.D.,Wang R.H., 2020. Monitoring dynamic deformation of communication tower using photography dynamic monitoring system. IOP Conference Series: Earth and Environmental Science. Vol. 558. No. 2: doi: 10.1088/1755-1315/558/2/022061

Downloads

Published

2021-04-09

Issue

Section

Articles

How to Cite

REAL-TIME MONITORING DEFORMATION OF BUILDING USING PHOTOGRAPHY DYNAMIC MONITORING SYSTEM. (2021). Stavební Obzor - Civil Engineering Journal, 30(1). https://doi.org/10.14311/CEJ.2021.01.0018