Data di Pubblicazione:
2006
Abstract:
Continous scanning laser Doppler vibrometry (CSLDV) is a type of ‘‘spatial field’’ non-contact
technique for measuring structural vibrations by employing a laser Doppler vibrometer whose laser beam is
moving continuously on the structure surface. When an LDV is scanned continuously along an arbitrarily
line, the LDV output is an amplitude-modulated sine wave according to the structure operational deflection
shape. Smooth mode shapes, which can be defined by polynomial functions across the scanned area, may be
recovered as a set of polynomial coefficients derived from the LDV output analysed in the frequency
domain, which spectrum comprises sidebands centred on the excitation frequency and spaced at multiples
of the scan frequency(ies).
This paper concentrates its attention to the influence of the speckle noise on the measured data quality,
the speckle being an unavoidable phenomenon occurring when a coherent light beam is scattered back from
an optically rough surface.
technique for measuring structural vibrations by employing a laser Doppler vibrometer whose laser beam is
moving continuously on the structure surface. When an LDV is scanned continuously along an arbitrarily
line, the LDV output is an amplitude-modulated sine wave according to the structure operational deflection
shape. Smooth mode shapes, which can be defined by polynomial functions across the scanned area, may be
recovered as a set of polynomial coefficients derived from the LDV output analysed in the frequency
domain, which spectrum comprises sidebands centred on the excitation frequency and spaced at multiples
of the scan frequency(ies).
This paper concentrates its attention to the influence of the speckle noise on the measured data quality,
the speckle being an unavoidable phenomenon occurring when a coherent light beam is scattered back from
an optically rough surface.
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Laser Doppler vibrometry; Speckle noise; Continuous scanning
Elenco autori:
Martarelli, Milena; Ewins, Dj
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