Abstract
Abstract. The deformation monitoring of subway tunnel is of extraordinary necessity. Therefore, a method for deformation monitoring based on terrestrial point clouds is proposed in this paper. First, the traditional adjacent stations registration is replaced by sectioncontrolled registration, so that the common control points can be used by each station and thus the error accumulation avoided within a section. Afterwards, the central axis of the subway tunnel is determined through RANSAC (Random Sample Consensus) algorithm and curve fitting. Although with very high resolution, laser points are still discrete and thus the vertical section is computed via the quadric fitting of the vicinity of interest, instead of the fitting of the whole model of a subway tunnel, which is determined by the intersection line rotated about the central axis of tunnel within a vertical plane. The extraction of the vertical section is then optimized using RANSAC for the purpose of filtering out noises. Based on the extracted vertical sections, the volume of tunnel deformation is estimated by the comparison between vertical sections extracted at the same position from different epochs of point clouds. Furthermore, the continuously extracted vertical sections are deployed to evaluate the convergent tendency of the tunnel. The proposed algorithms are verified using real datasets in terms of accuracy and computation efficiency. The experimental result of fitting accuracy analysis shows the maximum deviation between interpolated point and real point is 1.5 mm, and the minimum one is 0.1 mm; the convergent tendency of the tunnel was detected by the comparison of adjacent fitting radius. The maximum error is 6 mm, while the minimum one is 1 mm. The computation cost of vertical section abstraction is within 3 seconds/section, which proves high efficiency..
Highlights
In order to alleviate the pressure of the ground transportation, subway has been the main component of public transport system with high carrying capacity, in consideration of its advantages of high efficiency, safety and low consumption
The deformation monitoring of subway tunnel is of extraordinary necessity
The main approaches of deformation monitoring applied on subway tunnel can be divided into two types, i.e. contact and non-contact
Summary
In order to alleviate the pressure of the ground transportation, subway has been the main component of public transport system with high carrying capacity, in consideration of its advantages of high efficiency, safety and low consumption. The main approaches of deformation monitoring applied on subway tunnel can be divided into two types, i.e. contact and non-contact. The disadvantages of monitoring methods mentioned above include limited monitoring points, low efficiency, and the accuracy is prone to be impacted by environmental factors, which can be tackled by applying 3D laser scanning technology. As a new approach of measurement, TLS (Terrestrial laser scanner) is more appropriate for monitoring of subway tunnel by comparison, which can acquire mass 3D point clouds with high density and high resolution, no reflection prism and low requirement for light and temperature. A method of continuous vertical section abstraction for the deformation monitoring of subway tunnel in operation based on 3D point clouds is proposed in this paper
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
