Comparison of different optimized irregular sparse 2D ultrasound arrays
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Publication Details
Author list: Diarra B, Roux E, Liebgott H, Ravi S, Robini M, Tortoli P, Cachard C
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Place: NEW YORK
Publication year: 2016
Journal: IEEE International Ultrasonics Symposium (1948-5719)
Journal acronym: IEEE INT ULTRA SYM
Number of pages: 4
eISBN: 978-1-4673-9897-8
ISSN: 1948-5719
Languages: English-Great Britain (EN-GB)
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Abstract
The role of 2D matrix arrays in the realization of real time 3D ultrasound imaging is crucial as the latter permit to acquire a complete volume. The lack of control systems for these arrays containing thousands of elements and the dimension of connection cables for such a number of elements are the main obstacles to the use of these technologies. The sparse array techniques present a solid candidate to solve these technological limitations but give rise to beam pattern deteriorations in terms of energy loss and unwanted lobes apparition. The irregular positioning of the array elements permits to drastically decrease the unwanted lobes while the energy loss may be compensated by increasing the element size [1][2]. However, as elements get larger, the directivity decreases. To solve this directivity reduction, we propose to combine elements of different sizes in such a manner that a broad directivity is maintained using small elements whereas the energy loss may be compensated by wide ones. Additionally, an innovative simulated annealing based algorithm [3] is used to refine the array beam profile when the active element number is set to 256. The results compared to those obtained by the basic non-grid array show significant improvement in the beam pattern.
Keywords
2D array, 3D ultrasound imaging, irregular sparse array, simulated annealing
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