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    • 1. 发明授权
    • Method and apparatus for compensating for inoperative elements in
ultrasonic transducer array
    • 用于补偿超声波换能器阵列中不起作用的元件的方法和装置
    • US6120449A
    • 2000-09-19
    • US200077
    • 1998-11-25
    • Jonathan E. SnyderMir Said Seyed-Bolorforosh
    • Jonathan E. SnyderMir Said Seyed-Bolorforosh
    • G01S7/52G01S15/89G10K11/34A61B8/00
    • G01S15/8909A61B8/4494G01S7/5205G10K11/341
    • A method and an apparatus for compensating for fully or partially inoperative elements in an ultrasonic transducer array. The inoperative elements are compensated for by "bridging" or "shorting" them to fully operative elements. This compensation technique can be applied to one-dimensional or multi-dimensional transducer arrays. A bridge between a fully or partially inoperative element and an adjacent fully operative element can be achieved by physically shorting the elements somewhere in the signal chain or by electrically connecting the elements via switches, e.g., of a multiplexer. The state of the multiplexer switches (i.e., open or closed) is controlled by loading MUX State control data into a flash memory located on-board the probe. This MUX State control data includes switch settings for connecting a defective element to an adjacent fully functional element in the transducer array.
    • 一种用于补偿超声换能器阵列中完全或部分不起作用的元件的方法和装置。 通过“桥接”或“短路”到完全操作的元件来补偿不起作用的元件。 该补偿技术可以应用于一维或多维换能器阵列。 完全或部分不起作用的元件和相邻的完全操作元件之间的桥梁可以通过在信号链中某处的物理短路或者通过例如多路复用器的开关电连接元件来实现。 通过将MUX状态控制数据加载到位于探头上的闪存中来控制多路复用器开关(即,打开或关闭)的状态。 该MUX状态控制数据包括用于将有缺陷的元件连接到换能器阵列中相邻的全功能元件的开关设置。
    • 4. 发明授权
    • Ultrasound image texture control using adaptive speckle control algorithm
    • 超声图像纹理控制采用自适应斑点控制算法
    • US5841889A
    • 1998-11-24
    • US581668
    • 1995-12-29
    • Mir Said Seyed-Bolorforosh
    • Mir Said Seyed-Bolorforosh
    • G01N29/06A61B8/00G01N29/44G01S7/52G01S15/89G06T1/00G06K9/00
    • G01S7/52046G01N2291/0289
    • A method for controlling the contrast resolution and the tissue texture of ultrasonic images employs a signal processing algorithm to adjust an image by changing the tissue texture (speckle grain size). The algorithm increases the image contrast by allocating a different speckle pattern to different grey scale levels. This signal processing algorithm is based on the Hilbert transform. It uses the property of the Hilbert transform to generate a quadrature component of the given image which is modulated by the speckle pattern as well as all other image information. The quadrature component is then squared before being selectively added to or subtracted from the square of the in-phase component of the given image to control the information in the image. The added or subtracted signals have different textures (or spatial frequency components). The arithmetic operation between the in-phase and quadrature phase components determines the image texture. If this operation is done selectively, then the contrast and the texture of the image can be selectively controlled.
    • 用于控制超声图像的对比度分辨率和组织纹理的方法采用信号处理算法来通过改变组织纹理(散斑粒度)来调整图像。 该算法通过将不同的斑点图案分配给不同的灰度级别来增加图像对比度。 该信号处理算法基于希尔伯特变换。 它使用希尔伯特变换的属性来生成由斑点图案调制的给定图像的正交分量以及所有其他图像信息。 然后在将正交分量选择性地添加到给定图像的同相分量的平方或从其中减去以控制图像中的信息之前平方。 加或减信号具有不同的纹理(或空间频率分量)。 同相和正交相位分量之间的算术运算决定了图像纹理。 如果选择性地进行该操作,则可以选择性地控制图像的对比度和纹理。
    • 5. 发明授权
    • Method and apparatus for optimal data mapping of power doppler images
    • 功率多普勒图像的最佳数据映射的方法和装置
    • US06176828B1
    • 2001-01-23
    • US09220519
    • 1998-12-24
    • David D. BeckerMir Said Seyed-BolorforoshMichael Joseph Washburn
    • David D. BeckerMir Said Seyed-BolorforoshMichael Joseph Washburn
    • A61B800
    • G01S15/8979A61B8/06A61B8/13
    • A method and an apparatus for color mapping of flow power data in which the flow states containing information of most interest to the user are enhanced, while flow states not containing information of interest are suppressed. This is accomplished using a color mapping having three segments which are connected at upper and lower knee points, the latter being settable either automatically or via operator inputs. In the automatic mode, the host computer determines the positions of the knee points based on analysis of a single or a mean image frame of power Doppler data or based on system parameters (e.g., dynamic range) set by the operator. The host computer then constructs a color mapping having the determined knee points and loads that color mapping into the video processor.
    • 流量功率数据的颜色映射的方法和装置,其中包含用户最感兴趣的信息的流状态被增强,而不包含感兴趣的信息的流状态被抑制。 这是使用具有三个段的颜色映射来实现的,该三个段连接在上部和下部拐点处,后者可以通过操作者输入自动设置。 在自动模式中,主计算机基于功率多普勒数据的单个或平均图像帧的分析或者基于由操作者设置的系统参数(例如,动态范围)来确定拐点的位置。 然后,主计算机构建具有确定的拐点的颜色映射,并将该颜色映射加载到视频处理器中。
    • 10. 发明授权
    • Method to control frame rate in ultrasound imaging
    • 超声成像中控制帧率的方法
    • US5797846A
    • 1998-08-25
    • US774665
    • 1996-12-30
    • Mir Said Seyed-BolorforoshMichael J. WashburnDavid D. Becker
    • Mir Said Seyed-BolorforoshMichael J. WashburnDavid D. Becker
    • G01N29/26A61B8/00G01S7/52H04R17/00
    • G01S7/52085G01S7/52025G01S7/52046G01S7/5206G01S7/52063G01S7/52071
    • A method for optimizing the beam distribution to obtain the highest frame rate together with the least amount of acoustic noise while limiting the spatial aliasing to an acceptable level. The beam distribution is adjusted according to the scan format and as a function of the beam width, which is proportional to the product of the F number and the operating wavelength. As the F number changes in going from the shallow depth to a deeper depth, the number of beams fired to construct an image would change correspondingly. In addition, if the F number is changing in going from the center of image to the edge of the image, the separation of the fired beams would change. Alternatively, if the operating frequency is being changed in going from shallower depths to deeper depths or in going from the center of image to the edge of the image, the beam spacing is changed in order to fire the optimum number of beams at all times, and thereby obtain the highest frame rate. Another variation is to have a beam distribution which depends on the spatial resolution of the display unit. For a sector scan, the number of beams which are fired at the shallower depths can be made smaller than the number of beams fired at the deeper depths. Once the beam distribution has been defined, the sequencing of beam firings must be determined to maximize the frame rate.
    • 一种用于优化波束分布以获得最高帧速率以及最小量声学噪声同时将空间混叠限制到可接受水平的方法。 光束分布根据扫描格式和光束宽度的函数进行调节,光束宽度与F数与工作波长的乘积成比例。 随着F数从浅层深度的深度变化到更深的深度,发射构造图像的光束数将相应变化。 另外,如果从图像中心到图像边缘的F数正在变化,则射束的分离将改变。 或者,如果工作频率从较浅的深度变化到更深的深度,或者从图像的中心向图像的边缘变化,则改变光束间隔以始终激发最佳数量的光束, 从而获得最高的帧速率。 另一种变化是具有取决于显示单元的空间分辨率的光束分布。 对于扇区扫描,可以使在较浅深度处发射的光束的数量小于在较深深度处发射的光束的数量。 一旦定义了光束分布,必须确定光束发射的顺序以使帧速率最大化。