Abstract
The convergence diameter of shield tunnels is detected by ellipse fitting or local curve fitting to cross-section points. However, the tunnel section, which is extruded by an external force, has an irregular elliptical shape, and the waist of the tunnel is often blocked by accessories, resulting in data loss. This study proposes a convergence diameter and radial dislocation detection method based on block-level fitting. The proposed method solves the accuracy degradation caused by the model error and point cloud incompletion. First, the noise points in the tunnel section point cloud are removed using the least trimmed squares method. Second, the tunnel transverse seam is then located using the image edge detection algorithm. Third, the endpoint of the convergence diameter is determined by making a specific segment the center and shifting the detector from the center to the pinpoint. Finally, the convergence diameter and radial dislocation are detected by the endpoints of the segments. The experimental results showed that the absolute detection accuracy of this method was better than 3 mm, and the repeated detection accuracy was better than 2 mm. This result is consistent with prior total station measurements, which are more suitable for practical engineering applications.
Highlights
Urban rail transit is one of the main modes of transportation in modern cities, and the subway is an essential form of urban rail transit
The foundation pit is planning to be excavated on the side of this test area, we used self-driven mobile laser scanning (SDMLS) to compare tunnel deformation before and after pit excavation
Before excavating the foundation pit, the SDMLS was used to detect the current state of the tunnel
Summary
Urban rail transit is one of the main modes of transportation in modern cities, and the subway is an essential form of urban rail transit. China is at the peak of its subway construction. Tunnels are an essential part of subway pipelines, and shield tunnels are the main forms of underground structures in metro engineering. Complexity, and uncertainty of subway tunnel engineering, tunnel structural health has a critical impact on the safety of public life and social property [3,4]. Ensuring the safe and economic operation of subway tunnels in their design life cycle has become one of the most crucial problems in the engineering community. Conducting normalized detection of tunnel structural diseases in the stages of project construction and operation has become an imperative task
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