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Nowicki A, Klimonda Z, Lewandowski M, et al. Comparison of sound fields generated by different coded excitations--experimental results. Ultrasonics. 2005;44(1):121-9doi: 10.1016/j.ultras.2005.10.001.
Nowicki, A., Klimonda, Z., Lewandowski, M., Litniewski, J., Lewin, P. A., & Trots, I. (2006). Comparison of sound fields generated by different coded excitations--experimental results. Ultrasonics, 44(1), 121-9. https://doi.org/10.1016/j.ultras.2005.10.001
Nowicki, A, et al. "Comparison of sound fields generated by different coded excitations--experimental results." Ultrasonics vol. 44,1 (2006): 121-9. doi: https://doi.org/10.1016/j.ultras.2005.10.001
Nowicki A, Klimonda Z, Lewandowski M, Litniewski J, Lewin PA, Trots I. Comparison of sound fields generated by different coded excitations--experimental results. Ultrasonics. 2006 Jan;44(1):121-9. doi: 10.1016/j.ultras.2005.10.001. Epub 2005 Nov 07. PMID: 16313936.
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Ultrasonics. 2006 Jan;44(1):121-9. doi: 10.1016/j.ultras.2005.10.001. Epub 2005 Nov 07.

Comparison of sound fields generated by different coded excitations--experimental results.

Ultrasonics

A Nowicki, Z Klimonda, M Lewandowski, J Litniewski, P A Lewin, I Trots

Affiliations

  1. Institute of Fundamental Technological Research, Polish Academy of Sciences, Swietokrzyska 21, 00-049 Warsaw, Poland. [email protected]

PMID: 16313936 DOI: 10.1016/j.ultras.2005.10.001

Abstract

This work reports the results of measurements of spatial distributions of ultrasound fields obtained from five energizing schemes. Three different codes, namely, chirp signal and two sinusoidal sequences were investigated. The sequences were phase modulated with 13 bits Barker code and 16 bits Golay complementary codes. Moreover, two reference signals generated as two and sixteen cycle sine tone bursts were examined. Planar, 50% (fractional) bandwidth, 15 mm diameter source transducer operating at 2 MHz center frequency was used in all measurements. The experimental data were collected using computerized scanning system and recorded using wideband, PVDF membrane hydrophone (Sonora 804). The measured echoes were compressed, so the complete pressure field in the investigated location before and after compression could be compared. In addition to a priori anticipated increase in the signal to noise ratio (SNR) for the decoded pressure fields, the results indicated differences in the pressure amplitude levels, directivity patterns, and the axial distance at which the maximum pressure amplitude was recorded. It was found that the directivity patterns of non-compressed fields exhibited shapes similar to the patterns characteristic for sinusoidal excitation having relatively long time duration. In contrast, the patterns corresponding to compressed fields resembled those produced by brief, wideband pulses. This was particularly visible in the case of binary sequences. The location of the maximum pressure amplitude measured in the 2 MHz field shifted towards the source by 15 mm and 25 mm for Barker code and Golay code, respectively. The results of this work may be applicable in the development of new coded excitation schemes. They could also be helpful in optimizing the design of imaging transducers employed in ultrasound systems designed for coded excitation. Finally, they could shed additional light on the relationship between the spatial field distribution and achievable image quality and in this way facilitate optimization of the images obtained using coded systems.

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