FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3120960942> ?p ?o ?g. }

• W3120960942 abstract "Structural health monitoring (SHM) can extend the operation of bridges beyond their original life span, increase the safety between scheduled inspections, and allow for a prioritized inspection after extreme events. One of the major challenges is to assess which damages can or cannot be diagnosed (i.e., detected or localized), which is essential to evaluate the value of a SHM system before it is installed, and to optimize the sensor placement accordingly.This work develops a framework to predict the minimum damage, i.e., the minimum change in local structural design parameters that can reliably be detected based on changes in global damage-sensitive features. The diagnosis is considered reliable if the probability of false alarms is low and the probability of detection is high. Equivalently, a damage is detectable if it is significant under consideration of typical uncertainties related to ambient excitation and measurement noise and empirical safety thresholds. The approach requires vibration data from the undamaged structure in combination with a numerical model, and is universally applicable to a wide range of structures and damage-sensitive features. Secondly, a method is proposed to analyze the minimum localizable damage. The results show that optimal localizability is a compromise between high localization resolution, high detectability, and few false localization alarms. Thirdly, a sensor placement strategy is devised that takes as input the desired minimum diagnosable damage and optimizes the sensor layout and the number of sensors accordingly. The method allows one to focus the global damage diagnosis on local structural components. Ultimately, the monitoring of prestressing forces and support displacements is incorporated into the diagnostic framework, so that they can be analyzed and distinguished from changes in material properties or cross-sectional values.Besides the performance evaluation, the framework is suitable for quality control of existing instrumentation on real structures. Therefore, self-validation strategies are implemented to verify the input parameters, to validate the theoretical assumptions, and to check its effectiveness based on non-invasive tests using extra masses. The proof of concept studies based on a laboratory steel beam and a cable-stayed bridge show promising results regarding the practical application of the theoretical contributions." @default.
• W3120960942 created "2021-01-18" @default.
• W3120960942 creator A5048905953 @default.
• W3120960942 date "2020-12-11" @default.
• W3120960942 modified "2023-09-25" @default.
• W3120960942 title "Minimum diagnosable damage and optimal sensor placement for structural health monitoring" @default.
• W3120960942 doi "https://doi.org/10.14288/1.0395438" @default.
• W3120960942 hasPublicationYear "2020" @default.
• W3120960942 type Work @default.
• W3120960942 sameAs 3120960942 @default.
• W3120960942 citedByCount "0" @default.
• W3120960942 crossrefType "dissertation" @default.
• W3120960942 hasAuthorship W3120960942A5048905953 @default.
• W3120960942 hasConcept C115961682 @default.
• W3120960942 hasConcept C124101348 @default.
• W3120960942 hasConcept C127413603 @default.
• W3120960942 hasConcept C146978453 @default.
• W3120960942 hasConcept C154945302 @default.
• W3120960942 hasConcept C200601418 @default.
• W3120960942 hasConcept C204323151 @default.
• W3120960942 hasConcept C21200559 @default.
• W3120960942 hasConcept C24326235 @default.
• W3120960942 hasConcept C2776247918 @default.
• W3120960942 hasConcept C41008148 @default.
• W3120960942 hasConcept C66938386 @default.
• W3120960942 hasConcept C79403827 @default.
• W3120960942 hasConcept C99498987 @default.
• W3120960942 hasConceptScore W3120960942C115961682 @default.
• W3120960942 hasConceptScore W3120960942C124101348 @default.
• W3120960942 hasConceptScore W3120960942C127413603 @default.
• W3120960942 hasConceptScore W3120960942C146978453 @default.
• W3120960942 hasConceptScore W3120960942C154945302 @default.
• W3120960942 hasConceptScore W3120960942C200601418 @default.
• W3120960942 hasConceptScore W3120960942C204323151 @default.
• W3120960942 hasConceptScore W3120960942C21200559 @default.
• W3120960942 hasConceptScore W3120960942C24326235 @default.
• W3120960942 hasConceptScore W3120960942C2776247918 @default.
• W3120960942 hasConceptScore W3120960942C41008148 @default.
• W3120960942 hasConceptScore W3120960942C66938386 @default.
• W3120960942 hasConceptScore W3120960942C79403827 @default.
• W3120960942 hasConceptScore W3120960942C99498987 @default.
• W3120960942 hasLocation W31209609421 @default.
• W3120960942 hasOpenAccess W3120960942 @default.
• W3120960942 hasPrimaryLocation W31209609421 @default.
• W3120960942 hasRelatedWork W138028639 @default.
• W3120960942 hasRelatedWork W166325624 @default.
• W3120960942 hasRelatedWork W1997238591 @default.
• W3120960942 hasRelatedWork W2071127587 @default.
• W3120960942 hasRelatedWork W2086708801 @default.
• W3120960942 hasRelatedWork W2112164330 @default.
• W3120960942 hasRelatedWork W2194033247 @default.
• W3120960942 hasRelatedWork W2312302509 @default.
• W3120960942 hasRelatedWork W2394683708 @default.
• W3120960942 hasRelatedWork W2753994518 @default.
• W3120960942 hasRelatedWork W2884319355 @default.
• W3120960942 hasRelatedWork W2895349258 @default.
• W3120960942 hasRelatedWork W2904784663 @default.
• W3120960942 hasRelatedWork W2952615029 @default.
• W3120960942 hasRelatedWork W2972989243 @default.
• W3120960942 hasRelatedWork W2981384971 @default.
• W3120960942 hasRelatedWork W3045006017 @default.
• W3120960942 hasRelatedWork W3127642695 @default.
• W3120960942 hasRelatedWork W3154827547 @default.
• W3120960942 hasRelatedWork W3199712640 @default.
• W3120960942 isParatext "false" @default.
• W3120960942 isRetracted "false" @default.
• W3120960942 magId "3120960942" @default.
• W3120960942 workType "dissertation" @default.