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Automatic Detection and Association Analysis of Multiple Surface Defects on Shield Subway Tunnels

Ziren Yin, Zhanzhan Lei, Ao Zheng, Jiasong Zhu, Xiaozhou Liu

2023Sensors22 citationsDOIOpen Access PDF

Abstract

The surface defects on a shield subway tunnel can significantly affect the serviceability of the tunnel structure and may compromise operation safety. To effectively detect multiple surface defects, this study uses a tunnel inspection trolley (TIT) based on the mobile laser scanning technique. By conducting an inspection of the shield tunnel on a metro line section, various surface defects are identified with the TIT, including water leakage defects, dislocation, spalling, cross-section deformation, etc. To explore the root causes of the surface defects, association rules between different defects are calculated using an improved Apriori algorithm. The results show that: (i) there are significant differences in different association rules for various surface defects on the shield tunnel; (ii) the average confidence of the association rule "dislocation & spalling → water leakage" is as high as 57.78%, indicating that most of the water leakage defects are caused by dislocation and spalling of the shield tunnel in the sections being inspected; (iii) the weakest rule appears at "water leakage → spalling", with an average confidence of 13%. The association analysis can be used for predicting the critical defects influencing structural reliability and operation safety, such as water leakage, and optimizing the construction and maintenance work for a shield subway tunnel.

Topics & Concepts

SpallShieldStructural engineeringLeakage (economics)EngineeringGeotechnical engineeringMaterials scienceForensic engineeringGeologyEconomicsMacroeconomicsPetrologyInfrastructure Maintenance and MonitoringTunneling and Rock Mechanics3D Surveying and Cultural Heritage
Automatic Detection and Association Analysis of Multiple Surface Defects on Shield Subway Tunnels | Litcius