A Robotic Automated Solution for Operational Modal Analysis of Bridges with High-Resolution Mode Shape Recovery
Xudong Jian, Zhilu Lai, Kiran Bacsa, Yuguang Fu, C. G. Koh, Limin Sun, Andreas Wieser, Eleni Chatzi
Abstract
This study presents a robot-assisted solution for the automated identification of bridge frequencies and high-spatial-resolution mode shapes using a minimal number of sensors. The proposed approach employs programmable wheeled robots, whose movement can be remotely controlled, as the mobile platform carrying accelerometers. The output-only frequency domain decomposition (FDD) algorithm is adopted for use with the proposed stop-and-go mobile sensing scheme, resulting in the identification of frequencies and high-resolution mode shapes. The solution was verified via two numerical case studies and was validated on a full-scale test of a footbridge. The results reveal that the frequencies and high-resolution shapes of the excited structural modes are identified successfully using only two accelerometers, confirming the satisfactory practicality and efficiency of the proposed solution.