The measured data obtained from sensors in continuous monitoring of civil structures are mainly used for modal identification and damage detection. Therefore, when modal identification analysis is carried out the quality in the identification of the modes will highly influence the damage detection results. It is also widely recognized that the usefulness of the measured data used for modal identification and damage detection is significantly influenced by the number and locations of sensors. The objective of this study is the numerical implementation of two widely known optimum sensor placement methods in beam-like structures
Optimal sensor placement is one of the important issues in monitoring the condition of structures, w...
In large-scale civil structures, a limited number of sensors are placed to monitor the health of civ...
Structural monitoring plays a central role in civil engineering; in particular, optimal sensor posit...
An evaluation of the capabilities and limitations of practical placement techniques used for damage ...
A method of optimizing sensor locations and detecting damage in a structure using the collected info...
Structural damage detection methods using vibration measurements have been developed for decades. Me...
Abstract A previous study has shown that the mode shapes of a beam are more sensitive to damage than...
Dynamical assessment is often employed to evaluate structures in civil engineering. This non-destruc...
This paper presents a sensor placement optimization strategy with the purpose of damage detection fr...
The dynamic behavior of a structural system is influenced by damage to the structure. Extraction of...
An evaluation of the capabilities and limitations of practical placement techniques used for damage ...
Vibration-based damage detection is based on the fact that measurements of changes in the vibration ...
Currently, most sensor placement methodologies are focused on maximizing the control-lability and ob...
Theoretical and computational issues arising in the selection of the optimal sensor configuration in...
This paper is dedicated to the identifiability of vibrating beam structures with uncertain damages. ...
Optimal sensor placement is one of the important issues in monitoring the condition of structures, w...
In large-scale civil structures, a limited number of sensors are placed to monitor the health of civ...
Structural monitoring plays a central role in civil engineering; in particular, optimal sensor posit...
An evaluation of the capabilities and limitations of practical placement techniques used for damage ...
A method of optimizing sensor locations and detecting damage in a structure using the collected info...
Structural damage detection methods using vibration measurements have been developed for decades. Me...
Abstract A previous study has shown that the mode shapes of a beam are more sensitive to damage than...
Dynamical assessment is often employed to evaluate structures in civil engineering. This non-destruc...
This paper presents a sensor placement optimization strategy with the purpose of damage detection fr...
The dynamic behavior of a structural system is influenced by damage to the structure. Extraction of...
An evaluation of the capabilities and limitations of practical placement techniques used for damage ...
Vibration-based damage detection is based on the fact that measurements of changes in the vibration ...
Currently, most sensor placement methodologies are focused on maximizing the control-lability and ob...
Theoretical and computational issues arising in the selection of the optimal sensor configuration in...
This paper is dedicated to the identifiability of vibrating beam structures with uncertain damages. ...
Optimal sensor placement is one of the important issues in monitoring the condition of structures, w...
In large-scale civil structures, a limited number of sensors are placed to monitor the health of civ...
Structural monitoring plays a central role in civil engineering; in particular, optimal sensor posit...