This work describes a novel instrument based on a self-mixing optical interferometer, able to reconstruct the target speed and direction, without heterodyne detection. The real-time elaboration employs the signal non-linearity in order to recover the speed sign in the frequency domain. The target speed is measured by the signal frequency, while the speed sign is evaluated by the phase of the harmonics in the frequency domain. The high-sensitivity of the elaboration allows the measurement over diffusive target with distances up to 10 m. The measurements results have been successfully compared with a very-high resolution a commercial calibrated instrument.
Real-Time Self-Mixing Interferometer for Long Distances
MAGNANI, ALESSANDRO;PESATORI, ALESSANDRO;NORGIA, MICHELE
2014-01-01
Abstract
This work describes a novel instrument based on a self-mixing optical interferometer, able to reconstruct the target speed and direction, without heterodyne detection. The real-time elaboration employs the signal non-linearity in order to recover the speed sign in the frequency domain. The target speed is measured by the signal frequency, while the speed sign is evaluated by the phase of the harmonics in the frequency domain. The high-sensitivity of the elaboration allows the measurement over diffusive target with distances up to 10 m. The measurements results have been successfully compared with a very-high resolution a commercial calibrated instrument.| File | Dimensione | Formato | |
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2014 IEEE TIM selmix velocimeter.pdf
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TIM selmix velocimeter_11311-818522_Norgia.pdf
accesso aperto
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Post-Print (DRAFT o Author’s Accepted Manuscript-AAM)
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1.08 MB
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Adobe PDF
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1.08 MB | Adobe PDF | Visualizza/Apri |
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