Finally, we would like to say that these advanced damage detection methods have not been evaluated under the same structure and kind of damage, therefore a comparative performance evaluation cannot be done. However, there are other factors that also can provoke changes in the vibration parameters of structures like gradient of temperatures, humidity among others. For this reason, advanced mathematical methods have been proposed to highlight this small difference. For instance, the change of the vibration parameters of the structure after some damage appeared is very small. Unfortunately, the application of the vibration based damage detection methods to bridges is not a straightforward procedure. Furthermore, there are methods able to detect damage just with the information provided from the damaged vibration parameters like those based on wavelet analysis. These methods compared the vibration parameters determined from two different structural conditions of the bridges. From the vast number of proposed methods proposed in the last 20 years, those based on the monitoring of the vibration parameters of the structure are considered suitable for their application to big structures like bridges. For these reasons, the scientific community was encouraged to propose more advanced techniques to detect damage in structures. Moreover, the current and traditional methods to evaluate bridges are based on visual inspection which several times fail to detect inner damage or these located in not accessible places. ¿Que se pretende que el alumno aprenda al aprobar el curso? We can start asking the question why damage detection in bridges is so important? Firstly because if damage can be detected in the first steps, it would be possible to plan the maintenance and rehabilitation of the bridge with more detail saving money. Buscando en la realización de tales actividades, la seguridad de las obras de ingeniería encomendadas, su funcionalidad, buena calidad y economía. Introducción Perfil del alumno Calendario de clases AntecedentesĤ ❼uál es el perfil del Maestro en Ingeniería Civil (Estructuras)?Ĭurso ❼uál es el perfil del Maestro en Ingeniería Civil (Estructuras)? El Maestro en Ingeniería Civil es el profesional capaz de resolver los problemas estructurales relacionados con las obras civiles, abordando dichas problemáticas en cuestión de: planeación, proyecto, construcción, supervisión, rehabilitación, gestión así como la investigación de nuevos métodos de resolver estas problemáticas y la enseñanza. Finally, it is drawn some conclusions and are given recommendations.ģ Perfil del alumno Calendario de clases Antecedentes In the main part of this thesis, the methods were evaluated using the dynamic response calculated from bridges. #DINAMICA DE ESTRUCTURAS CHOPRA 4TA EDICION CRACKED#Bibliografía This research is divided in 5 main parts: Firstly is given a short introduction, the selected damage detection methods are evaluated under data acquired from simulation of the dynamic response of cracked bridges, Moreover, methods are also evaluated from data acquired from beam specimens tested in the laboratory. Boca del Río, Veracruz, 7 de agosto 2012ġ Introducción 2. This thesis was under the supervision of Professor Paulo Cruz at the University of Minho in Guimarães, Portugal and Professor Gustavo Ayala from the National Autonomous University of México. Ingeniería (Estructuras) Correo-e: Celular: Thank you People of the Jury and all the audience for being here to attend my defences named Damage detection methods in bridges through vibration monitoring: Evaluation and Application. 1 Mecánica Estructural Profesor Rolando Salgado Estrada
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