Sensor Technologies for Civil Infrastructures, Volume 2

Informationen zum Autor Jerome P. Lynch is Associate Professor in the Department of Civil and Environmental Engineering at University of Michigan, USA. Professor Hoon Sohn works at the Korea Advanced Institute of Science and Technology, Korea. Distinguished Professor, Civil and Environmental Engineering, Northeastern University, USA. Klappentext Sensors are used for civil infrastructure performance assessment and health monitoring! and have evolved significantly through developments in materials and methodologies. Sensor Technologies for Civil Infrastructure Volume II provides an overview of sensor data analysis and case studies in assessing and monitoring civil infrastructures.Part one focuses on sensor data interrogation and decision making! with chapters on data management technologies! data analysis! techniques for damage detection and structural damage detection. Part two is made up of case studies in assessing and monitoring specific structures such as bridges! towers! buildings! dams! tunnels! pipelines! and roads. Sensor Technologies for Civil Infrastructure provides a standard reference for structural and civil engineers! electronics engineers! and academics with an interest in the field. Zusammenfassung Volume 2 will take the reader through sensor data management and analytical techniques for fault detection and localization. It will look at prognosis and life-cycle assessment. Inhaltsverzeichnis Part I: Sensor data interrogation and decision making 1 Sensor Data Management Technologies for Infrastructure Asset Management K. H. Law, Stanford University, USA, K. Smarsly, Bauhaus University Weimar, Germany and Y. Wang, Georgia Institute of Technology, USA 2 Sensor Data Analysis, Reduction and Fusion for Assessing and Monitoring Civil Infrastructures D. Zonta, University of Trento, Italy 3 Analytical techniques for damage detection and localization for assessing and monitoring civil infrastructures D. Bernal, Northeastern University, USA 4 Output only Modal Identification and Structural Damage Detection using Time Frequency and Wavelet Techniques for Assessing and Monitoring Civil Infrastructures S. S. Nagarajaiah, Rice University U.S.A, B. Basu, Trinity College Dublin, Ireland and Y. Yang, Rice University, USA 5 Prognosis and Life-Cycle Assessment Based on Structural Health Monitoring (SHM) Information D. M. Frangopol, Lehigh University, USA and S. Kim, Korea Hydro and Nuclear Power Co., Ltd, Republic of Korea 6 System Level Design of a Roaming Multi-Modal Multi-Sensor System for Assessing and Monitoring Civil Infrastructures R. Birken, Northeastern University, USA , J. Zhang, Northeastern University, USA and G. Schirner, Northeastern University, USA Part II: Case studies in assessing and monitoring specific structures 7 Sensing Solutions for Assessing and Monitoring Bridges J. M.W Brownjohn, K-Y. Koo and N. de Battista, University of Exeter, UK 8 Sensing Solutions for Assessing and Monitoring Seismically-Excited Buildings A. Mita, Keio University, Japan 9 Sensing solutions for assessing and monitoring super-tall towers Y. Q. Ni, The Hong Kong Polytechnic University, Hong Kong 10 Sensing Solutions for Assessing and Monitoring Dams C-H. Loh, National Taiwan University, Taiwan 11 Sensing Solutions for Assessing and Monitoring Tunnels N. A. Hoult, Queen's University, Canada and K. Soga, University of Cambridge, UK 12 Mapping Subsurface Utilities with Mobile Electromagnetic Geophysical Sensor Arrays R. Birken, Northeastern University, USA and M. Oristaglio, Yale University, USA 13 Sensing solutions for assessing the stability of levees, sinkholes and landslides D. Inaudi, SMARTEC SA, Switzerland 14 Sensing Solutions for Assessing and Monitoring Pipeline Systems B....

Auteur
Jerome P. Lynch is Associate Professor in the Department of Civil and Environmental Engineering at University of Michigan, USA. Professor Hoon Sohn works at the Korea Advanced Institute of Science and Technology, Korea.Distinguished Professor, Civil and Environmental Engineering, Northeastern University, USA.

Texte du rabat
Sensors are used for civil infrastructure performance assessment and health monitoring, and have evolved significantly through developments in materials and methodologies. Sensor Technologies for Civil Infrastructure Volume II provides an overview of sensor data analysis and case studies in assessing and monitoring civil infrastructures.

Part one focuses on sensor data interrogation and decision making, with chapters on data management technologies, data analysis, techniques for damage detection and structural damage detection. Part two is made up of case studies in assessing and monitoring specific structures such as bridges, towers, buildings, dams, tunnels, pipelines, and roads.

Sensor Technologies for Civil Infrastructure provides a standard reference for structural and civil engineers, electronics engineers, and academics with an interest in the field.

Résumé
Volume 2 will take the reader through sensor data management and analytical techniques for fault detection and localization. It will look at prognosis and life-cycle assessment.

Contenu

Part I: Sensor data interrogation and decision making 1 Sensor Data Management Technologies for Infrastructure Asset Management K. H. Law, Stanford University, USA, K. Smarsly, Bauhaus University Weimar, Germany and Y. Wang, Georgia Institute of Technology, USA 2 Sensor Data Analysis, Reduction and Fusion for Assessing and Monitoring Civil Infrastructures D. Zonta, University of Trento, Italy 3 Analytical techniques for damage detection and localization for assessing and monitoring civil infrastructures D. Bernal, Northeastern University, USA 4 Output only Modal Identification and Structural Damage Detection using Time Frequency and Wavelet Techniques for Assessing and Monitoring Civil Infrastructures S. S. Nagarajaiah, Rice University U.S.A, B. Basu, Trinity College Dublin, Ireland and Y. Yang, Rice University, USA 5 Prognosis and Life-Cycle Assessment Based on Structural Health Monitoring (SHM) Information D. M. Frangopol, Lehigh University, USA and S. Kim, Korea Hydro and Nuclear Power Co., Ltd, Republic of Korea 6 System Level Design of a Roaming Multi-Modal Multi-Sensor System for Assessing and Monitoring Civil Infrastructures R. Birken, Northeastern University, USA , J. Zhang, Northeastern University, USA and G. Schirner, Northeastern University, USA Part II: Case studies in assessing and monitoring specific structures 7 Sensing Solutions for Assessing and Monitoring Bridges J. M.W Brownjohn, K-Y. Koo and N. de Battista, University of Exeter, UK 8 Sensing Solutions for Assessing and Monitoring Seismically-Excited Buildings A. Mita, Keio University, Japan 9 Sensing solutions for assessing and monitoring super-tall towers Y. Q. Ni, The Hong Kong Polytechnic University, Hong Kong 10 Sensing Solutions for Assessing and Monitoring Dams C-H. Loh, National Taiwan University, Taiwan 11 Sensing Solutions for Assessing and Monitoring Tunnels N. A. Hoult, Queen's University, Canada and K. Soga, University of Cambridge, UK 12 Mapping Subsurface Utilities with Mobile Electromagnetic Geophysical Sensor Arrays R. Birken, Northeastern University, USA and M. Oristaglio, Yale University, USA 13 Sensing solutions for assessing the stability of levees, sinkholes and landslides D. Inaudi, SMARTEC SA, Switzerland 14 Sensing Solutions for Assessing and Monitoring Pipeline Systems B. Glisic, Princeton University, USA 15 Sensing Solutions for Assessing and Monitoring Roads M. L. Wang and R. Birken, Northeastern University, USA 16 Sensing Solutions for Assessing and Monitoring Railroad tracks P. Rizzo, University of Pittsburgh, USA 17 Sensing solutions for assessing and monitoring underwater systems P. Rizzo, University of Pittsburgh, USA **18 Sensing Solutions fo…