Title :
Dynamics-Based Stereo Visual Inspection Using Multidimensional Modal Analysis
Author :
Hua Yang ; Qingyi Gu ; Aoyama, Tadayoshi ; Takaki, Takeshi ; Ishii, Idaku
Author_Institution :
Sch. of Mech. Sci. & Eng., Huazhong Univ. of Sci. & Technol., Wuhan, China
Abstract :
This paper proposes the concept of multidirectional-modal-parameter-based visual inspection with high-frame-rate (HFR) stereo video analysis as a novel active sensing methodology for determining the dynamic properties of a vibrating object. HFR stereo video is used for observing the 3-D vibration distribution of an object under unknown excitations in the audio-frequency range, and the projections of the vibration displacement vectors along multiple directions can be verified using output-only modal analysis that can estimate their modal parameters such as resonant frequencies and mode shapes. Through implementing a fast output-only modal parameter estimation algorithm on a 10000-fps stereo vision platform, we developed a real-time multidirectional-modal-parameter-based visual inspection system; it can measure the 3-D vibration displacement vectors of 30 points on a beam-shaped object from 512 × 96 pixel stereo images at 10000 fps and can determine its resonant frequencies and mode shapes along 72 different directions around its beam axis as its input-invariant modal parameters. To demonstrate the performance of our system in modal-parameter-based visual inspection, the asymmetric dynamic properties, caused by cracks, of several steel beams vibrating at dozens of hertz and having artificial cracks were inspected in real time by determining the modal parameters along 72 directions around their beam axes.
Keywords :
automatic optical inspection; beams (structures); crack detection; displacement measurement; parameter estimation; steel; stereo image processing; structural engineering computing; vibrations; video signal processing; 3D vibration displacement vector measurement; 3D vibration distribution; HFR stereo video analysis; active sensing methodology; artificial cracks; asymmetric dynamic properties; audio-frequency range excitations; beam axes; beam-shaped object; dynamic property determination; dynamics-based stereo visual inspection; high-frame-rate stereo video analysis; input-invariant modal parameters; mode shape determination; multidimensional modal analysis; output-only modal analysis; output-only modal parameter estimation algorithm; real-time multidirectional-modal-parameter-based visual inspection system; resonant frequency determination; steel beams; stereo images; stereo vision platform; vibrating object; vibration displacement vector projections; Cameras; Inspection; Modal analysis; Real-time systems; Robot sensing systems; Vectors; Non-destructive active sensing; high-speed stereo vision; mulitidirectional modal parameter estimation; visual inspection;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2013.2276620
