A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Response pattern analysis‐based structural health monitoring of cable‐stayed bridges
Measurement systems using different sensors are currently well established for the safe use of structures in principal infrastructures, such as cable‐stayed bridges. However, existing practical technologies that assess structural states by analyzing monitored data are underutilized. Although technologies to identify potential damage using advanced sensors or algorithms are continuously being developed, they have not reached a stage wherein they can be confidently applied. This study presents a methodology for monitoring structural response measurement data for application in current systems. The proposed methodology estimates changes in structural properties through pattern changes in measurement data; it is simple, clear, and easily applicable. An autoregressive model is used to analyze patterns in time series data. Pattern changes are analyzed based on reference data. A procedure for monitoring pattern variations in measurement data is derived, and the influences of variables considered in the monitoring procedure are also analyzed. The applicability of the methodology is examined based on the measurement data of an in‐service cable‐stayed bridge. As a basis for structural health monitoring based on pattern analysis, the proposed methodology is expected to be applied in various ways, through further studies, to relate the pattern of structural responses to the state of the structures.
Response pattern analysis‐based structural health monitoring of cable‐stayed bridges
Measurement systems using different sensors are currently well established for the safe use of structures in principal infrastructures, such as cable‐stayed bridges. However, existing practical technologies that assess structural states by analyzing monitored data are underutilized. Although technologies to identify potential damage using advanced sensors or algorithms are continuously being developed, they have not reached a stage wherein they can be confidently applied. This study presents a methodology for monitoring structural response measurement data for application in current systems. The proposed methodology estimates changes in structural properties through pattern changes in measurement data; it is simple, clear, and easily applicable. An autoregressive model is used to analyze patterns in time series data. Pattern changes are analyzed based on reference data. A procedure for monitoring pattern variations in measurement data is derived, and the influences of variables considered in the monitoring procedure are also analyzed. The applicability of the methodology is examined based on the measurement data of an in‐service cable‐stayed bridge. As a basis for structural health monitoring based on pattern analysis, the proposed methodology is expected to be applied in various ways, through further studies, to relate the pattern of structural responses to the state of the structures.
Response pattern analysis‐based structural health monitoring of cable‐stayed bridges
Lee, Yunwoo (author) / Park, Won‐Joo (author) / Kang, Young‐Jong (author) / Kim, Seungjun (author)
2021-11-01
24 pages
Article (Journal)
Electronic Resource
English
Structural behaviour of cable-stayed bridges.
Structural behavior of cable-stayed bridges
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Reliability assessment of cable-stayed bridges based on structural health monitoring techniques
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Seismic Response Analysis of Cable-Stayed Bridges
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