3 / 2021-01-27 13:58:29
A monocular vision-based measurement method used for low-frequency linear and rotary vibrations
Monocular vision,LSD,Template matching,Low-frequency vibration,Laser interferometry
Final Paper
Yang Ming / Guizhou University
Yang Junjie / Beijing University of Civil Engineering and Architecture
Chen Haibin / Yunnan Institute of Measuring and Testing Technology
Liu Zhihua / National Institute of Metrology
Cai Chenguang / National Institute of Metrology
The low-frequency vibration measurement has been increasingly used in the aspects of earthquake warning, bride and building construction healthy monitoring, marine monitoring, etc. Currently, the linear and rotary vibrations are commonly measured by laser interferometry; however, this method usually requires a high-cost and complex operation system, and its measurement accuracy at low-frequencies is affected the weak collimation and speckle noise. In this study, a monocular vision method is investigated to accurately and flexibly measure the low-frequency linear and rotary vibrations simultaneously. This method mainly consists of two steps: the template matching and the linear segment detection (LSD). The matching with a series of circular templates is applied to correctly determine the region of interest (ROI) in the image captured at different rotation positions and distances. The LSD is used to extract the motion feature edge in the ROI and achieve the vibration measurement. Comparison experiments with the laser interferometry and circular grating method demonstrate that the investigated method can accomplish the high-accuracy linear displacement and rotary angle measurements in the low-frequency range.
Important Date
  • Conference Date

    Nov 01

    2022

    to

    Nov 03

    2022

  • Oct 30 2022

    Draft paper submission deadline

  • Nov 09 2022

    Registration deadline

Sponsored By
Qingdao University of Technology