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    • 1. 发明授权
    • Nuclear magnetic resonance flow imaging
    • 核磁共振流动成像
    • US4595879A
    • 1986-06-17
    • US551244
    • 1983-11-14
    • Arnold H. LentWaldo S. HinshawRussell A. Compton
    • Arnold H. LentWaldo S. HinshawRussell A. Compton
    • G01F1/56G01R33/563G01R33/24
    • G01F1/56G01R33/563
    • The effects of particle motion or flow within a sample may be measured by applying a motion-encoding gradient to the sample, along with spatial encoding gradients. The motion-encoding gradient applies two gradient fields of respective opposite sense to the spins of the sample so as to encode motion as a net phase component resulting from the two fields. Two image data sequences, one with motion encoding and one without, may be compared to measure the effects of motion, or a plurality of image data sequences may be taken, each with a different value motion-encoding gradient. A Fourier transformation performed on the sequence data in the latter case with respect to the variation in the motion-encoding gradient pulses will yield a plurality of images, each representing the amount of material which exhibits a different velocity.
    • 颗粒运动或样品内流动的影响可以通过对样品应用运动编码梯度以及空间编码梯度来测量。 运动编码梯度对样本的自旋施加相应相反意义的两个梯度场,以便将运动编码为由两个场产生的净相位分量。 可以比较具有运动编码和不具有运动编码的两个图像数据序列,以测量运动的效果,或者可以采用多个图像数据序列,每个图像数据序列具有不同的值运动编码梯度。 对于后一种情况下针对运动编码梯度脉冲的变化执行的序列数据的傅立叶变换将产生多个图像,每个图像表示呈现不同速度的材料的量。
    • 4. 发明授权
    • Investigation of samples by N.M.R. techniques
    • N.M.R.样品调查 技术
    • US4468621A
    • 1984-08-28
    • US341175
    • 1982-01-20
    • Waldo S. Hinshaw
    • Waldo S. Hinshaw
    • G01R33/54G01R33/08
    • G01R33/54
    • Spatially discriminated information is obtained by appropriate processing of data derived from a series of pulsed N.M.R. operations performed with a magnetic field exhibiting a linear gradient whose magnitude is different for each operation. In obtaining a two-dimensional image of spin density distribution, coil sets (5 and 6) are used to generate magnetic field components giving x and y gradients, the former being changed stepwise in magnitude and the latter being fixed. For each value of x gradient, the sample (1) is irradiated with pulsed r.f. energy, resultant N.M.R. signals being detected by phase-sensitive detectors (19 and 20) whose outputs are regularly sampled by A-D converters (25 and 26). Processing of the complete sampled data by a computer (12) involves both Fourier transformation with respect to x gradient magnitude and Fourier transformation with respect to time. For sectional images a third coil set (7) is used to generate a component giving an alternating z gradient and the irradiation consists of a train of pulses.
    • 通过适当处理从一系列脉冲N.M.R.得到的数据来获得空间辨别信息。 以表现出线性梯度的磁场执行的操作,其幅度对于每个操作是不同的。 在获得自旋密度分布的二维图像时,使用线圈组(5和6)来产生给出x和y梯度的磁场分量,前者在幅度上逐步变化,而后者是固定的。 对于x梯度的每个值,样品(1)用脉冲r.f. 能量,结果N.M.R. 信号由相位敏感检测器(19和20)检测,其输出由A-D转换器(25和26)定期采样。 由计算机(12)处理完整的采样数据涉及相对于x梯度幅度和相对于时间的傅里叶变换的傅里叶变换。 对于截面图像,第三线圈组(7)用于产生给出交替z梯度的分量,并且照射由一串脉冲组成。
    • 6. 发明授权
    • Ray-by-ray fourier image reconstruction from projections
    • 来自投影的Ray-by-ray傅立叶图像重建
    • US06968031B2
    • 2005-11-22
    • US10709002
    • 2004-04-06
    • Waldo S. Hinshaw
    • Waldo S. Hinshaw
    • A61B6/00A61B6/03G01N23/00G21K1/12H05G1/60
    • G06T11/003Y10S378/901
    • Two-dimensional or three-dimensional images of the distribution of a property of an object are formed by passing rays of radiation through the object and detecting how much each ray is attenuated. The Fourier transform is taken of each individual ray but only the zeroth term of the transform along the path of the ray is retained. Each of these transforms is added into a two or thee-dimensional array. If the three-dimensional distribution is being imaged, the transform is a plane of numbers, which is added into the three-dimensional array at right angles to the path of the ray. The numbers in the array are corrected for the non-uniform density of data. After enough such rays in enough different directions are applied, the distribution of the property is obtained by taking the inverse Fourier transform of the data in the array.
    • 物体的属性分布的二维或三维图像是通过将辐射的光线通过对象形成的,并且检测每个光线被衰减多少。 对每个单独的光线进行傅里叶变换,但是仅保留沿着光线的路径的变换的第零项。 这些变换中的每一个被添加到二维或二维数组中。 如果三维分布被成像,则变换是数字平面,其被加到与光线的路径成直角的三维阵列中。 数组中的数字对于数据的不均匀密度进行了校正。 在足够的不同方向施加足够的这种光线之后,通过对阵列中的数据进行逆傅立叶变换来获得属性的分布。