论文信息 - Coded excitation, motion and signal-to-noise ratio

Coded excitation, motion and signal-to-noise ratio

Previous work has shown that coded excitation can be used to considerably improve the signal-to-noise ratio (SNR) of signals received by transducers of poor sensitivity such as electromagnetic acoustic transducers (EMATs). EMATs are usually driven with signal powers of the order of kWs so that adequate SNR is achieved. With coded excitation these powers can be reduced to as low as 1–5W. A particular feature of the transmitted codes is that they are temporally long and contain intermittent intervals in which reception takes place. Because of the signal length there is concern that excessive movement of the probe or target can result in deterioration of the performance of such a system. Therefore, in this paper we investigate the effect that physical motion of the test piece can have on the acquired signals. Simulated results will be presented and discussed here.

Frederic Cegla | Balint Herdovics

[1] Pietro Burrascano,et al. Pulse-compression ultrasonic technique for the inspection of forged steel with high attenuation , 2012 .

[2] Frederic Cegla,et al. Coded Excitation for Pulse-Echo Systems , 2017, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control.

[3] F Cegla,et al. EMAT phased array: A feasibility study of surface crack detection , 2017, Ultrasonics.

[4] D. A. Hutchins,et al. Application of pulse compression signal processing techniques to electromagnetic acoustic transducers for noncontact thickness measurements and imaging , 2005 .

[5] M. K. Andrews,et al. Noncontact, high-resolution ultrasonic imaging of wood samples using coded chirp waveforms , 2005, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.