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    • 1. 发明申请
    • Method of Generating a 2-D Image of a 3-D Object
    • 生成3-D物体的二维图像的方法
    • US20080246770A1
    • 2008-10-09
    • US12064671
    • 2006-08-23
    • Gundolf KieferJuergen Weese
    • Gundolf KieferJuergen Weese
    • G06T11/20
    • G06T15/50
    • 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.
    • 描述了一种用于产生由包括多个数据点的体数据集合表示的3-D对象的二维图像的方法,每个数据点具有不透明度值。 通过3-D物体投射多个意向射线,并且对于每个射线,射线路径被划分为由路径上的数据点定义的多个基本采样间隔。 如果确定跨基准采样间隔的不透明度值的差异可能变得大于预定值,则在基本采样间隔内产生相继较小的采样区域,直到确定每个产生的不透明度值的差异较小 基准间隔中的采样间隔小于预定阈值。 使用直接体积绘制程序累积沿着路径的采样间隔中指示射线与3-D物体之间的相互作用的值,以确定2-D图像中的像素值。
    • 2. 发明授权
    • Medical image viewing protocols
    • 医学图像查看协议
    • US07889900B2
    • 2011-02-15
    • US11815452
    • 2006-02-07
    • Juergen WeeseEric ThelenGundolf KieferHelko LehmannAli MajidiJochen Peters
    • Juergen WeeseEric ThelenGundolf KieferHelko LehmannAli MajidiJochen Peters
    • G06K9/00A61B5/05
    • G06T11/001
    • A method, computer program and device for creating a viewing protocol for medical images is described. At least a first site of interest is identified in a medical imaging data set captured from the patient. Patient record data or computer assisted detection information can be used to identify the site of interest, which may be a potential lesion. A viewing protocol for displaying medical images to a user is planned. The viewing protocol includes a viewing path along which an image of the site of interest will be displayed. The viewing protocol also includes a trigger associated with the site of interest. When the trigger event is encountered the dynamic mode of image display is reconfigured to dynamically highlight the site of interest. The viewing protocol can then be used to control the display of images so as to provide, for example, a virtual endoscope.
    • 描述了一种用于创建用于医学图像的观看协议的方法,计算机程序和设备。 在从患者获取的医学成像数据集中识别至少第一感兴趣的位置。 患者记录数据或计算机辅助检测信息可用于识别感兴趣的位点,这可能是潜在的病变。 计划用于向用户显示医学图像的观看协议。 观看协议包括观看路径,通过该观看路径将显示感兴趣的场所的图像。 查看协议还包括与感兴趣的站点相关联的触发器。 当遇到触发事件时,重新配置图像显示的动态模式以动态突出显示感兴趣的站点。 然后可以使用观看协议来控制图像的显示,以便提供例如虚拟内窥镜。
    • 10. 发明申请
    • Adaptive image interpolation for volume rendering
    • 自适应图像插值用于体绘制
    • US20060139361A1
    • 2006-06-29
    • US10559050
    • 2004-05-26
    • Marc BuschGundolf KieferJurgen Weese
    • Marc BuschGundolf KieferJurgen Weese
    • G09G5/00
    • G06T15/08
    • Because of the increasing size of digital images available, an interactive rendering speed at a high display quality continues to be a challenging task. According to the present invention, a sampling frequency of a ray casting for generating the projection image is varied in dependence of information derived from the 3D volume data during rendering. Furthermore, an interpolation is performed for skipped pixels for which no ray casting was performed in the projection image, based on-this information. Advantageously, the present invention allows for an improved image quality, while reducing a computation time required to generate an output image.
    • 由于可用的数字图像的尺寸越来越大,高显示质量的交互式渲染速度仍然是一项具有挑战性的任务。 根据本发明,用于生成投影图像的射线投射的采样频率根据在渲染期间从3D数据量数据导出的信息而变化。 此外,基于该信息,对投影图像中不进行射线投射的跳过像素执行内插。 有利地,本发明允许改善图像质量,同时减少生成输出图像所需的计算时间。