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- Title
GB-RAR Deformation Information Estimation of High-Speed Railway Bridge in Consideration of the Effects of Colored Noise.
- Authors
Wang, Cheng; Zhou, Lv; Ma, Jun; Shi, Anping; Li, Xinyi; Liu, Lilong; Zhang, Zhi; Zhang, Di
- Abstract
Safety assessment must accurately grasp deformation information of a high-speed railway bridge. When the ground-based radar collected high-frequency data, white and colored noises will be present in the radar signal due to the influence of environment and instrument errors. The existence of the above-mentioned two kinds of noises will affect the accurate estimation of deformation information. Based on the above situation, a ground-based real aperture radar (GB-RAR) deformation information estimation method considering the effect of colored noise was proposed in this work. The proposed method was applied to the safety monitoring and analysis of East Lake High-tech Bridge during the Wuhan Metro Line 11 shield tunnel crossing underneath this bridge. First, the settlement deformation time series of the bridge was derived based on GB-RAR, and it was verified by leveling at an accuracy better than 0.27 mm. Second, white, and colored noises were detected in the denoised settlement deformation time series through a power spectral analysis and maximum likelihood estimation, and the colored noise spectral indexes were approximately −1. Finally, according to the proposed method, the estimated settlement rates of No. 7 and 8 piers were 0.0112 ± 0.0026 and −0.0046 ± 0.0053 mm/h, and the accumulative settlement values were −0.40 and −0.16 mm, respectively. The results were in good agreement with the results of leveling measurement and more accurate than those of the deformation information estimation method without considering the effect of colored noise. The research results showed the reliability and effectiveness of the method in this work, and the bridge was stable and safe during the monitoring period.
- Subjects
WUHAN (China); RAILROAD tunnels; RAILROAD bridges; MAXIMUM likelihood statistics; NOISE; POWER series; WHITE noise; MIMO radar; SYNTHETIC aperture radar
- Publication
Applied Sciences (2076-3417), 2022, Vol 12, Issue 20, pN.PAG
- ISSN
2076-3417
- Publication type
Article
- DOI
10.3390/app122010504