A New Synthetic-Aperture Focusing Method for Ultrasonic B-Scan Imaging by the Fourier Transform

IEEE Transactions on Sonics and Ultrasonics Pub Date : 1985-07-01 DOI:10.1109/T-SU.1985.31627
K. Nagai
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引用次数: 91

Abstract

This paper presents a new synthetic-aperture focusing method for ultrasonic E-scan imaging. The method involves the two- dimensional Fourier transform and is named Fourier domain recon- struction (FDR). The performance of FDR as well as the basis for the availability of the image is derived theoretically in some detail. Conven- tional synthetic-aperture focusing is referred to as delay and sum (D&S). The computational complexity of FDR is of the order of OW2 log N) as compared to O(N3) for delay and sum in reconstructing N X N pixels. In experiments, good images of several objects have been re- constructed by FDR.
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基于傅里叶变换的超声b扫描合成孔径聚焦新方法
提出了一种新的超声电子扫描成像合成孔径聚焦方法。该方法涉及二维傅里叶变换,称为傅里叶域重构(FDR)。从理论上详细地推导了FDR的性能以及图像可用性的基础。传统的合成孔径聚焦被称为延时和(D&S)。在重构N × N像素时,FDR的计算复杂度为OW2 log N),而延迟和求和的计算复杂度为O(N3)。在实验中,用FDR方法重建了若干物体的良好图像。
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IEEE Transactions on Sonics and Ultrasonics
IEEE Transactions on Sonics and Ultrasonics
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