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Ultrasonic Synthetic Apertures: Review

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the paper the concept of synthetic aperture used for high resolution/high frame rate ultrasonic imaging is reviewed. The synthetic aperture technique allows building extended “virtual” apertures, synthesized from smaller real aperture resulting in improved lateral resolution along full penetration depth without sacrificing the frame rate. Especially, four methods, synthetic aperture focusing (SAF), multi-element synthetic aperture focusing (M-SAF), synthetic receive aperture (SRA) and synthetic transmit aperture (STA) are addressed. The effective aperture function, describing two-way, far field radiation is a useful tool in beam pattern analysis. Some basic notations, which are used to calculate the effective aperture are introduced in Appendix.
Rocznik
Strony
427--438
Opis fizyczny
Bibliogr. 30 poz., wykr.
Twórcy
autor
  • Institute of Fundamental Technological Research Polish Academy of Sciences Pawińskiego 5B, 02-106 Warszawa, Poland
autor
  • Institute of Fundamental Technological Research Polish Academy of Sciences Pawińskiego 5B, 02-106 Warszawa, Poland
Bibliografia
  • 1. Behar V., Adam D., Optimization of sparse synthetic transmit aperture imaging with coded excitation and frequency division, Ultrasonics 43, 777–788, 2005
  • 2. Burckhardt C.B., Grandchamp P.A., Hoffmann H., An experimental 2MHz synthetic aperture sonar system intended for medical use, IEEE Trans. Son. Ultrason. 21, 1, 1-6, 1974.
  • 3. Chiao R.Y., Thomas L.J., .Aperture formation on reduced-channel arrays using the transmit-receive apodization matrix., IEEE Proc. Ultrasonics Symposium,, 1567 – 1571, 1996
  • 4. Flaherty J.J., Erikson K.R., Lund V.M., Synthetic aperture ultrasound imaging systems, United States Patent, US 3,548,642, 1967.
  • 5. Gnang Edinah K., Elgammaly A., Retakhz V., A Spectral Theory for Tensors, preprint, arXiv:1008.2923v4 [math.SP] 3 Nov 2011, 2011.
  • 6. Hansen JM and Jensen JA., Compounding in synthetic aperture imaging, IEEE Trans.Ultrason. Ferroelectr.Freq.Control., 59(9):2054-65, 2012.
  • 7. Holm H., Yao H., Improved frame rate with synthetic transmit aperture imaging using prefocused subapertures, Proc. IEEE Ultrason. Symp., Toronto, Oct. 1997
  • 8. Holm S., Yao H., Method and apparatus for synthetic transmit aperture imaging, US patent No 5.951.479, Sep. 14, 1999.
  • 9. Jensen J.A., Nikolov S.I., Gammelmark K.L., Pedersen M.H., Synthetic aperture ultrasound imaging, Ultrasonics, 44, 5–15, 2006.
  • 10. Karaman M., Li Pai-Chi, and O’Donnell M., Fellow, IEEE Synthetic Aperture Imaging for Small Scale Systems, IEEE Transactions On Ultrasonics, Ferroelectrics, And Frequency Control, 42, 3, 429–442, 1995
  • 11. Karaman M., Bilge H., and O’Donnell M., Adaptive multi-element synthetic aperture imaging with motion and phase aberration correction, IEEE Trans. Ultrason. Ferroelec. Freq. Contr., vol.
  • 12. Karaman M.,, M. O’Donnell M., Subaperture processing for ultrasonic imaging, IEEE Trans. Ultrason. Ferroelec. Freq. Contr. 45, 126–135, 1998.
  • 13. Karwat P., Klimonda Z., Seklewski M., Lewandowski M., Nowicki A., Data Reduction Method for Synthetic Transmit Aperture Algorithm, Archives of Acoustics 35, 4, 635–642 2010.
  • 14. Kilmer M.E., Moravitz Martin C.D., Decomposing a tensor, SIAM News, 37,9, 2004.
  • 15. Kim D., Park J., Cho J., Song T.K.,Yoo Y., New synthetic aperture imaging technique with dynamic apodization window, , Proc. SPIE, Medical Imaging 2012
  • 16. Kortbek J. , Jensen J.A., Gammelmark K.L., Sequential beamforming for synthetic aperture imaging, Ultrasonics 53, 1–16, 2013.
  • 17. Lockwood G.R, Li P.C., O'Donnell M., Foster F.S. Optimizing the radiation pattern of sparse periodic linear arrays. IEEE Trans. Ultrason., Ferroelec. and Freq. Cont., 43(1):4-12, 1996.
  • 18. Lockwood G.R, Talman J.R., Brunke S.S., Real-time 3-D ultrasound imaging using sparse synthetic aperture beamforming, IEEE Trans. Ultrason. Ferroelec. Freq. Contr. 45 980–988, 1998.
  • 19. Lockwood, G.R., Foster, F.S. Design of sparse array imaging systems, Proc. Ultrasonics Symposium, 1237 – 1243, 1995.
  • 20. Mosey, S.A., Charlton P.C. Well I.A., Modified Synthetic Aperture Focusing Technique Utilising the Spatial Impulse Response of the Ultrasound, (NDT.net e-Journal, 2013.
  • 21. Nikolov M., Behar V., Analysis and Optimization of Medical Ultrasound Imaging Usingthe Effective Aperture Approach, Cybernetics And Information Technologies, 5, 2, Sofia, Bulgarian Academy of Sciences, 53-68, 2005a.
  • 22. Nikolov M., Behar V., Analysis and Optimization Of Synthetic Aperture Ultrasound Imaging Using The Effective Aperture Approach, International Journal, Information Theories and Applications, 12, 3, 257-264, 2005b.
  • 23. O’Donnell M, Thomas L.J., Efficient synthetic aperture imaging from a circular aperture with possible application to catheter-based imaging, IEEE Trans. Ultrason. Ferroelec. Freq. Contr. 39 366–380, 1992.
  • 24. Trahey G.E., Nock L.F., Synthetic receive aperture imaging with phase correction formotion and for tissue inhomogeneities | part I: Basic principles. IEEE Trans. Ultrason. Ferroelec.Freq. Contr., 39(4):489-495, 1992.
  • 25. Trahey G.E., Nock L.F., Synthetic receive aperture imaging with phase correction for motion and for tissue inhomogeneities | part II: E_ects of and correction for motion. IEEE Trans. Ultrason. Ferroelec. Freq. Contr., 39(4):496{501, 1992.
  • 26. Trots I., Nowicki A., Lewandowski M. Laboratory setup for synthetic aperture ultrasound imaging, Archives of Acoustics, 33, 4, 573–580, 2008.
  • 27. Walker W.F., Trahey G.E., Real-time synthetic receive aperture imaging: experimental results, Proc. IEEE Ultrasonics Symposium, 1994.
  • 28. Wen Yan, Tin-Yau Tam, Anti-diagonals of symmetric and skew symmetric matrices with prescribed eigenvalues, Linear Algebra and its Applications, 438, 1446–1453, 2013.
  • 29. Yao H., Synthetic Aperture Methods for Medical Ultrasonic Imaging, Ph.D Thesis, University of Oslo, Norway, 1997.
  • 30. Ylitalo J.T., On the signal-to-noise ratio of a synthetic aperture ultrasound imaging method, Europ. J. Ultras. 3, 277 – 281, 1996.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-48b7c728-1557-4a7a-84cb-33db5c86fdee
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