Tunnel Safety Risk Assessment Based on Multi-source Information Fusion
Journal Title: Urban Mass Transit - Year 2024, Vol 27, Issue 7
Abstract
Objective To effectively perceive and assess safety risks during tunnel construction process, a tunnel safety risk assessment method based on multi-source information fusion is proposed. Method A tunnel safety risk assessment method is introduced, with a total of 20 tunnel safety risk influencing factors selected from four categories: geology, design, environment, and construction management. Then a tunnel safety risk assessment index system is established, and safety levels are determined. The basic probability assignment of the safety risk assessment index is constructed and calculated based on fuzzy matter-element method. Fusion calculations of the multi-source data are performed based on Dempster-Shafer evidence theory, and the safety levels are classified according to the principle of maximum membership degrees. Taking Nanping Sta.-Houba Sta. interval (Nan-Hou Interval) of Chongqing Rail Transit Line 10 Phase II project as example, the effectiveness of the proposed method in practical engineering is verified. Result & Conclusion Tunnel construction safety risk levels can be classified from low to high into five levels: the geological risk level of Nan-Hou Interval tunnel project is Level II; the design risk level is Level III; the environmental risk level is Level IV; the construction management risk level is Level II; the overall tunnel engineering risk level is Level II. The overall tunnel project is in a relatively low-risk state. Through verification in actual projects, it is found that the tunnel risk assessment results are consistent with the actual risk situation on-site.
Authors and Affiliations
Hongjiang LI
Keywords
Related Articles
- EP ID EP742595
- DOI 10.16037/j.1007-869x.2024.07.011
- Views 35
- Downloads 0
Grounding Fault Protection Scheme for 0.4 kV Switchgear in Metro Substations
[Objective] Single-phase grounding faults account for over 80% of the total distribution line faults, with most inter-phase faults originating from single-phase grounding faults. In metro power distribution systems, fa...
Peck Formula Modification of and Engineering Application in Small Radius Curve Shield Tunneling Construction
Objective In the urban rail transit line planning, curved tunnels, and even small radius curved tunnels are often chosen due to influencing factors such as building foundations, underground pipelines, and weak soil layer...
A Training Model for Urban Railway Transit Disciplines Postgraduate Based on Real-Problem-Driven Approach
[Objective] As an important part of urban transportation, the urban rail transit system is closely related to people′s travel and urban development. The continuous acceleration of urbanization and people′s constant pur...
Simulation Analysis of Air Distribution in the Public Area of Single-Span Arch-Shaped Underground Station under the Centralized Air Return Mode
[Objective] Due to the relatively high floor height and the special structural form of arched top plates, the single-span arch-shaped underground station poses higher requirements for decoration. Therefore, it is neces...
Cybersecurity Situational Awareness System Applicable for Urban Rail Transit CBTC System
Objective Urban rail transit CBTC (communication-based train control) systems face complex and diverse cybersecurity challenges. Existing cybersecurity tools feature high false alarm rates and poor adaptation to CBTC sys...