This book presents extensive information on structural health monitoring for suspension bridges. During the past two decades, there have been significant advances in the sensing technologies employed in long-span bridge health monitoring. However, interpretation of the massive monitoring data is still lagging behind. This book establishes a series of measurement interpretation frameworks that focus on bridge site environmental conditions, and global and local responses of suspension bridges. Using the proposed frameworks, it subsequently offers new insights into the structural behaviors of…mehr
This book presents extensive information on structural health monitoring for suspension bridges. During the past two decades, there have been significant advances in the sensing technologies employed in long-span bridge health monitoring. However, interpretation of the massive monitoring data is still lagging behind. This book establishes a series of measurement interpretation frameworks that focus on bridge site environmental conditions, and global and local responses of suspension bridges. Using the proposed frameworks, it subsequently offers new insights into the structural behaviors of long-span suspension bridges. As a valuable resource for researchers, scientists and engineers in the field of bridge structural health monitoring, it provides essential information, methods, and practical algorithms that can facilitate in-service bridge performance assessments.
Dr. Yang Deng received his Ph.D. from Southeast University, Nanjing, China and is currently an Associate Professor at Beijing University of Civil Engineering and Architecture. His research mainly focuses on structural performance prediction based on modeling of SHM data; fatigue analysis and assessment of bridge structures; structural damage identification and evaluation; and life-cycle structural reliability analysis. Prof. Aiqun Li received his Ph.D. from Southeast University, Nanjing, China and is currently a Professor at Beijing University of Civil Engineering and Architecture. His research mainly focuses on structural health monitoring.
Inhaltsangabe
Temperature action monitoring.- Bridge-site extreme wind prediction.- Displacement monitoring of expansion joints.- Modal frequency-based structural damage detection.- Fatigue monitoring of welded details.- Fatigue reliability analysis for welded details.- Vertical deflection monitoring of main girder.- Serviceability assessment based on vertical deflection measurements.- Tension force monitoring of main cable.- WIM-based fatigue performance investigation for hangers.
Temperature action monitoring.- Bridge-site extreme wind prediction.- Displacement monitoring of expansion joints.- Modal frequency-based structural damage detection.- Fatigue monitoring of welded details.- Fatigue reliability analysis for welded details.- Vertical deflection monitoring of main girder.- Serviceability assessment based on vertical deflection measurements.- Tension force monitoring of main cable.- WIM-based fatigue performance investigation for hangers.
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