Using Inertial Measurement Units originally developed for biomechanics for modal testing of civil engineering structures

David Hester, James Brownjohn, Mateusz Bocian, Yan Xu, Antonino Quattrone

Research output: Contribution to journalArticlepeer-review

10 Citations (Scopus)
279 Downloads (Pure)

Abstract

This paper explores the use of wireless Inertial Measurement Units (IMU) originally developed for bio-mechanical research applications for modal testing of civil engineering infrastructure. Due to their biomechanics origin, these devices combine a triaxial accelerometer with gyroscopes and magnetometers for orientation, as well as on board data logging capability and wireless communication for optional data streaming and to coordinate synchronisation with other IMUs in a network. The motivation for application to civil structures is that their capabilities and simple operating procedures make them suitable for modal testing of many types of civil infrastructure of limited dimension including footbridges and floors while also enabling recovering of dynamic forces generated and applied to structures by moving humans. To explore their capabilities in civil applications, the IMUs are evaluated through modal tests on three different structures with increasing challenge of spatial and environmental complexity. These are, a full-scale floor mock-up in a laboratory, a short span road bridge and a seven story office tower. For each case, the results from the IMUs are compared with those from a conventional wired system to identify the limitations. The main conclusion is that the relatively high noise floor and limited communication range will not be a serious limitation in the great majority of typical civil modal test applications where convenient operation is a significant advantage over conventional wired systems.
Original languageEnglish
Pages (from-to)776-798
JournalMechanical Systems and Signal Processing
Volume104
Early online date01 Dec 2017
DOIs
Publication statusPublished - 01 May 2018

Keywords

  • Operational Modal analysis
  • Wireless sensors
  • Ambient vibration
  • Civil engineering structures

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