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    • 1. 发明授权
    • Imaging and graphics processing system
    • 成像和图形处理系统
    • US5467459A
    • 1995-11-14
    • US101366
    • 1993-08-02
    • Thomas AlexanderYongmin KimHyunwook ParkKil-Su EoJing-Ming Jong
    • Thomas AlexanderYongmin KimHyunwook ParkKil-Su EoJing-Ming Jong
    • G06F12/02G06F12/00G06F12/06G06F12/08G06F15/80G06T1/20G06T1/60G06T15/00G06F12/04G06F13/00
    • G06T1/20G06F12/0864G06F15/8015G06T15/005G06F12/0875
    • The present invention provides a unified image and graphics processing system that provides both image and graphics processing at high speeds. The system includes a parallel vector processing unit, a graphics subsystem, a shared memory and a set of high-speed data buses for connecting all of the other components. Generally, the parallel vector processing unit includes a series of vector processors. Each processor includes a vector address generator for efficient generation of memory addresses for regular address sequences. In order to synchronize and control the vector processors' accesses to shared memory, the parallel vector processing unit includes shared memory access logic. The logic is incorporated into each vector processor. The graphics subsystem includes a series of polygon processors in a pipelined configuration. Each processor is connected in the pipeline by a first-in-first-out (FIFO) buffer for passing data results. Additionally, each polygon processor is connected to a local shared memory in which program instructions and data are stored. The graphics subsystem also includes a device addressing mechanism for identifying a destination device using a tagged address. The shared memory, the parallel vector processor and the graphics subsystem also incorporate an abbreviated addressing scheme, which reduces the amount of information required to request sequential addresses from the shared memory.
    • 本发明提供了一种统一的图像和图形处理系统,其以高速度提供图像和图形处理。 该系统包括并行向量处理单元,图形子系统,共享存储器和用于连接所有其它组件的一组高速数据总线。 通常,并行向量处理单元包括一系列向量处理器。 每个处理器包括一个矢量地址发生器,用于有效地生成常规地址序列的存储器地址 为了同步和控制向量处理器对共享存储器的访问,并行向量处理单元包括共享存储器访问逻辑。 逻辑被并入每个向量处理器。 图形子系统包括以流水线配置的一系列多边形处理器。 每个处理器通过先进先出(FIFO)缓冲器在流水线中连接,用于传递数据结果。 此外,每个多边形处理器连接到存储程序指令和数据的本地共享存储器。 图形子系统还包括用于使用标记地址识别目的地设备的设备寻址机制。 共享存储器,并行向量处理器和图形子系统还包括缩写寻址方案,其减少了从共享存储器请求顺序地址所需的信息量。
    • 7. 发明申请
    • Ultrasonic diagnostic imaging system with automatic control of penetration, resolution and frame rate
    • 超声波诊断成像系统具有自动控制穿透,分辨率和帧率
    • US20070276236A1
    • 2007-11-29
    • US10596113
    • 2004-12-07
    • Jing-Ming Jong
    • Jing-Ming Jong
    • A61B8/00
    • A61B8/585A61B5/11A61B8/00A61B8/465A61B8/5276G01S7/52038G01S7/52039G01S7/52041G01S7/52046G01S7/52073
    • An ultrasonic diagnostic imaging system and method are presented in which the balance between image resolution and frame rate (Res/Speed) and the balance between image resolution and penetration (Pen/Gen/Res) are automatically adjusted in response to image content. A motion detector analyzes the relative motion between successive images. If the motion content is relatively high, the imaging parameters are changed in favor of relatively greater frame rate and reduced resolution. A low motion content causes the opposite adjustment. The electronic noise between successive images is also computed with a relatively high noise content (low correlation) in the far field resulting in an adjustment to penetration as by lowering the transmit frequency. A relatively low noise content causes an adjustment in favor of increased resolution.
    • 提出了一种超声诊断成像系统和方法,其中图像分辨率和帧速率(Res / Speed)之间的平衡以及图像分辨率和穿透之间的平衡(Pen / Gen / Res)根据图像内容自动调整。 运动检测器分析连续图像之间的相对运动。 如果运动内容相对较高,则成像参数改变,有利于相对较大的帧速率和降低的分辨率。 低运动内容导致相反的调整。 连续图像之间的电子噪声也在远场中以相对高的噪声含量(低相关)计算,导致通过降低发射频率来调整穿透。 相对低的噪声含量导致调整以有利于增加的分辨率。
    • 9. 发明授权
    • High frame rate extended field of view ultrasound imaging system and method
    • 高帧率扩展视野超声成像系统及方法
    • US06572549B1
    • 2003-06-03
    • US10025288
    • 2001-12-18
    • Jing-Ming JongPaul Detmer
    • Jing-Ming JongPaul Detmer
    • A61B800
    • A61B8/483A61B8/08G01S7/52065G01S15/8993Y10S128/916
    • A 3-D ultrasound imaging system acquires partially complete image volumes interspersed with substantially complete image volumes. The partially complete image volumes contain speckle that is processed by a cross-correlation algorithm to track the movement of an ultrasound scanhead. By tracking the movement of the scanhead, the substantially complete image volumes can be properly registered with each other and combined to create a 3-D extended field of view image. The partially complete image volumes contain significantly less data than the substantially complete image volumes. Therefore, the partially complete image volumes can be acquired more quickly than the substantially complete image volumes to allow the scanhead to be scanned at a relatively fast speed.
    • 3-D超声成像系统获取散布有完整图像体积的部分完整图像体积。 部分完整的图像体积包含由互相关算法处理的斑点,以跟踪超声波扫描头的移动。 通过跟踪扫描头的移动,可以将基本上完整的图像体积彼此适当地对齐并组合以创建3-D扩展视场图像。 部分完整的图像体积包含比基本上完整的图像体积少得多的数据。 因此,可以比基本上完整的图像体积更快地获取部分完整的图像体积,以允许以相对较快的速度扫描扫描头。
    • 10. 发明授权
    • Position sensor in ultrasound transducer probe
    • 位置传感器在超声换能器探头
    • US06554771B1
    • 2003-04-29
    • US10026585
    • 2001-12-18
    • Vincentius Paulus BuilPaul R. DetmerJing-Ming JongXiang-Ning Li
    • Vincentius Paulus BuilPaul R. DetmerJing-Ming JongXiang-Ning Li
    • A61B814
    • A61B8/00A61B8/4254A61B8/4455G01S15/025G01S15/8911
    • An ultrasound imaging system (1) comprises a transducer probe (2) for supplying ultrasound waves to a subject area (A), for receiving ultrasound waves reflecting from the subject area (A), and for converting the reflecting waves into a first electrical signal, at least one position sensor (3) provided in the transducer probe (2) for detecting positional information on the transducer probe (2) relative to the subject area (A) during operation, and for generating a second electrical signal corresponding to the detected positional information, a processing unit (41) for controlling the transducer probe (2) and for processing the first and second electrical signals into an image. The position sensor (3) comprises a unit (23) for optically acquiring images of a surface of the subject area (A) during operation, for acquiring information from said images, and for processing said information into positional information on the transducer probe (2) relative to the subject area (A). An improved ultrasound imaging system is provided which offers more accurate position detection.
    • 超声波成像系统(1)包括用于向对象区域(A)提供超声波的换能器探头(2),用于接收从对象区域(A)反射的超声波,并将反射波转换成第一电信号 ,设置在所述换能器探头(2)中的至少一个位置传感器(3),用于在操作期间相对于所述被摄体区域(A)检测所述换能器探头(2)的位置信息,并且用于产生对应于所检测到的所述第二电信号 位置信息,用于控制换能器探头(2)并用于将第一和第二电信号处理成图像的处理单元(41)。 位置传感器(3)包括用于在操作期间光学获取被摄体区域(A)的表面的图像的单元(23),用于从所述图像获取信息,并且将所述信息处理成关于换能器探头(2)的位置信息 )。提供改进的超声成像系统,其提供更准确的位置检测。