LOCALLY OPTIMIZED TRANSFER FUNCTIONS FOR VOLUME VISUALIZATION
    2.
    发明公开
    LOCALLY OPTIMIZED TRANSFER FUNCTIONS FOR VOLUME VISUALIZATION 审中-公开
    局部优化的传输功能可视化体数据

    公开(公告)号:EP2044574A2

    公开(公告)日:2009-04-08

    申请号:EP07805118.2

    申请日:2007-07-11

    IPC分类号: G06T11/00

    CPC分类号: G06T15/10

    摘要: The invention relates to a system (100) for computing an image based on image data for displaying in a display, the image comprising a first image and a second image, the system comprising a first determination unit (110) for determining a first image data within the image data for computing the first image and for determining a second image data within the image data for computing the second image; a second determination unit (120) for determining a first transfer function for computing the first image and for determining a second transfer function for computing the second image; a third determination unit (130) for determining a viewing direction for computing the first image and for computing the second image; a fourth determination unit (140) for determining a first region of the display for displaying the first image and for determining a second region of the display for displaying the second image; and a computation unit (150) for computing the first image and the second image, thereby computing the image. The system (100) is thus capable of improving the quality of the displayed image by optimizing the first transfer function for computing the first image for displaying in the first display region and by optimizing the second transfer function for computing the second image for displaying in the second display region.

    A METHOD OF GENERATING A 2-D IMAGE OF A 3-D OBJECT
    4.
    发明公开
    A METHOD OF GENERATING A 2-D IMAGE OF A 3-D OBJECT 有权
    用于生产3-D点的2-D图象

    公开(公告)号:EP1922698A2

    公开(公告)日:2008-05-21

    申请号:EP06795738.1

    申请日:2006-08-23

    IPC分类号: G06T15/00 G06T11/00

    CPC分类号: G06T15/50

    摘要: There is described a method for generating a 2-D image of a 3-D object represented by a volume data set comprising a multiplicity of data points each having an opacity value. A plurality of notional rays are cast through the 3-D object and for each ray, a ray path is divided into a plurality of base sampling intervals defined by data points on the path. If it is determined that a difference in opacity values across a base sampling interval can become greater than a pre-determined value, successively smaller sampling regions are generated within the base sampling interval until it is determined that a difference in opacity values across each generated smaller sampling interval in the base interval is less than the pre¬ determined threshold. Values indicative of an interaction between the ray and the 3-D object in the sampling intervals along the path are accumulated using a direct volume rendering procedure to determine a pixel value in the 2-D image.

    ANATOMY-RELATED IMAGE-CONTEXT-DEPENDENT APPLICATIONS FOR EFFICIENT DIAGNOSIS
    5.
    发明公开
    ANATOMY-RELATED IMAGE-CONTEXT-DEPENDENT APPLICATIONS FOR EFFICIENT DIAGNOSIS 审中-公开
    ANATOMIE-BEZOGENE BILDINHALT-ABHÄNGIGEANWENDUNGEN ZUR EFFIZIENTEN DIAGNOSE

    公开(公告)号:EP2054829A2

    公开(公告)日:2009-05-06

    申请号:EP07805327.9

    申请日:2007-08-07

    IPC分类号: G06F19/00

    CPC分类号: G16H40/63 G06F19/00

    摘要: The invention relates to a system (100) for obtaining information relating to segmented volumetric medical image data, the system comprising: a display unit (110) for displaying a view of the segmented volumetric medical image data on a display; an indication unit (115) for indicating a location on the displayed view; a trigger unit (120) for triggering an event; an identification unit (125) for identifying a segmented anatomical structure comprised in the segmented volumetric medical image data based on the indicated location on the displayed view in response to the triggered event; and an execution unit (130) for executing an action associated with the identified segmented anatomical structure, thereby obtaining information relating to the segmented volumetric medical image data. The action executed by the execution unit (130) may be displaying a name of the segmented anatomical structure, a short description of the segmented anatomical structure, or a hint on a potential malformation or malfunction of the segmented anatomical structure. Thus, the system (100) allows obtaining valuable information relating to the volumetric medical image data viewed by a physician on the display, thereby assisting the physician in medical diagnosing.

    摘要翻译: 本发明涉及一种用于获取与分段体积医学图像数据相关的信息的系统(100),该系统包括:显示单元(110),用于在显示器上显示分割的体积医学图像数据的视图; 用于指示所显示视图上的位置的指示单元(115) 触发单元(120),用于触发事件; 识别单元(125),用于响应于所触发的事件,基于所显示的视图上的指示位置来识别包含在所述分段体积医学图像数据中的分段解剖结构; 以及执行单元(130),用于执行与所识别的分段解剖结构相关联的动作,从而获得与分割的体积医学图像数据相关的信息。 由执行单元(130)执行的动作可以显示分割的解剖结构的名称,分割的解剖结构的简短描述,或对分割的解剖结构的潜在畸形或故障的暗示。 因此,系统(100)允许获得与医生在显示器上观看的体积医学图像数据有关的有价值的信息,从而辅助医师进行医学诊断。

    A METHOD OF GENERATING A 2-D IMAGE OF A 3-D OBJECT
    6.
    发明授权
    A METHOD OF GENERATING A 2-D IMAGE OF A 3-D OBJECT 有权
    用于生产3-D点的2-D图象

    公开(公告)号:EP1922698B1

    公开(公告)日:2009-01-21

    申请号:EP06795738.1

    申请日:2006-08-23

    IPC分类号: G06T15/00 G06T11/00

    CPC分类号: G06T15/50

    摘要: There is described a method for generating a 2-D image of a 3-D object represented by a volume data set comprising a multiplicity of data points each having an opacity value. A plurality of notional rays are cast through the 3-D object and for each ray, a ray path is divided into a plurality of base sampling intervals defined by data points on the path. If it is determined that a difference in opacity values across a base sampling interval can become greater than a pre-determined value, successively smaller sampling regions are generated within the base sampling interval until it is determined that a difference in opacity values across each generated smaller sampling interval in the base interval is less than the pre¬ determined threshold. Values indicative of an interaction between the ray and the 3-D object in the sampling intervals along the path are accumulated using a direct volume rendering procedure to determine a pixel value in the 2-D image.