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    • 1. 发明授权
    • Method for operating an image system of an imaging medical examination device and medical examination device
    • 用于操作成像医疗检查装置和医疗检查装置的图像系统的方法
    • US06763084B2
    • 2004-07-13
    • US09990346
    • 2001-11-23
    • Stefan BoehmMartin Spahn
    • Stefan BoehmMartin Spahn
    • G01N2324
    • G09G3/006A61B6/583A61B6/585G06T7/0004G06T2207/10116G06T2207/30004G06T2207/30121G09G2330/08G09G2330/10H04N5/2176H04N5/325
    • In a method for operating an imaging medical examination device (1), an event of the undisturbed operation of the medical examination device (1) automatically triggers a defect determination (63) for determining a defective pixel possibly present in the image. The event is derived for example from a switch-on process, a calibration process and/or an examination process. Preferably, after the defect determination (63), a correction process (67) is automatically triggered if a defective pixel was detected. A medical examination device (1) has a detection device (31) for automatically determining a defective pixel possibly present in the image, in which case the detection device (31) can be activated by an event of the undisturbed operation of the medical examination device. A correction device (41) for automatically eliminating a defective pixel that has possibly been detected is preferably present.
    • 在用于操作成像医疗检查装置(1)的方法中,医疗检查装置(1)的未受干扰的操作的事件自动触发用于确定可能存在于图像中的缺陷像素的缺陷确定(63)。 该事件例如来自接通过程,校准过程和/或检查过程。 优选地,在缺陷确定(63)之后,如果检测到缺陷像素,则自动触发校正处理(67)。 医疗检查装置(1)具有用于自动确定图像中可能存在的缺陷像素的检测装置(31),在这种情况下,检测装置(31)可以由医疗检查装置的未受干扰的操作的事件激活 。 优选地存在用于自动消除可能被检测到的缺陷像素的校正装置(41)。
    • 3. 发明授权
    • Method and system for human vision model guided medical image quality assessment
    • 人类视觉模型的方法与系统指导医学图像质量评估
    • US08086007B2
    • 2011-12-27
    • US12286970
    • 2008-10-03
    • Michelle Xiao-Hong YanTi-chiun ChangMarkus LendlStefan BoehmTong FangPeter Durlak
    • Michelle Xiao-Hong YanTi-chiun ChangMarkus LendlStefan BoehmTong FangPeter Durlak
    • G06K9/00
    • G06K9/4619G06K2209/05G06T7/0012
    • A method and system for image quality assessment is disclosed. The image quality assessment method is a no-reference method for objectively assessing the quality of medical images. This method is guided by the human vision model in order to accurately reflect human perception. A region of interest (ROI) of medical image is divided into non-overlapping blocks of equal size. Each of the blocks is categorized as a smooth block, a texture block, or an edge block. A perceptual sharpness measure, which is weighted by local contrast, is calculated for each of the edge blocks. A perceptual noise level measure, which is weighted by background luminance, is calculated for each of the smooth blocks. A sharpness quality index is determined based on the perceptual sharpness measures of all of the edge blocks, and a noise level quality index is determined based on the perceptual noise level measures of all of the smooth blocks. An overall image quality index can be determined by using task specific machine learning of samples of annotated images. The image quality assessment method can be used in applications, such as video/image compression and storage in healthcare and homeland security, and band-width limited wireless communication.
    • 公开了一种用于图像质量评估的方法和系统。 图像质量评估方法是客观评估医学图像质量的非参考方法。 这种方法是以人类视觉模型为指导,以准确反映人类的感知。 医学图像的感兴趣区域(ROI)被划分成相等大小的不重叠块。 每个块被分类为平滑块,纹理块或边缘块。 针对每个边缘块计算出由局部对比度加权的感知锐度度量。 为每个平滑块计算感知噪声水平测量,其由背景亮度加权。 基于所有边缘块的感知锐度测量来确定锐度质量指标,并且基于所有平滑块的感知噪声水平测量来确定噪声水平质量指数。 可以通过使用注释图像的样本的任务特定机器学习来确定整体图像质量指数。 图像质量评估方法可用于医疗保健和国土安全中的视频/图像压缩和存储等应用,以及带宽有限的无线通信。
    • 4. 发明申请
    • DEVICE AND METHOD FOR TRACKING THE MOVEMENT OF A TOOL OF A HANDLING UNIT
    • 用于跟踪处理单元的工具的运动的装置和方法
    • US20100298963A1
    • 2010-11-25
    • US12161227
    • 2007-02-08
    • Stefan BoehmMark HellmannsKlaus DilgerKarl-Heinz Brakhage
    • Stefan BoehmMark HellmannsKlaus DilgerKarl-Heinz Brakhage
    • G05B15/02G06F19/00
    • G01B11/002B25J9/1697G05B19/404G05B2219/37388G05B2219/39178G05B2219/40623
    • A description is given of a device (1) for tracking the movement of a tool of a handling unit (2), having at least one directional radiator (5) that can be aligned with the tool and be tracked, and a signal evaluation unit (4) for determining the movement.The directional radiators (5) have actuators for aligning the directional beam (6) at adjustable angles with reference to a fixed spatial plane, and angle sensors for determining the current directional beam angle with reference to the spatial plane, the angle sensors being connected to the signal evaluation unit (4). Directional beam sensors (7) for detecting the directional beam (6) are arranged with a fixed reference to the tool and movably therewith, the directional beam sensors (7) being connected to the signal evaluation unit (4). The signal evaluation unit (4) is set up for tracking the directional beams (6) of the at least one directional radiator (5) onto an assigned, moving directional beam sensor (7), and for determining the arbitrary movement of the tool in three-dimensional space as a function of the directional beam angles.
    • 给出了用于跟踪处理单元(2)的工具的移动的装置(1),其具有可与工具对准的并被跟踪的至少一个定向辐射器(5)和信号评估单元 (4)用于确定运动。 定向辐射器(5)具有用于相对于固定空间平面以可调节的角度对准定向光束(6)的致动器,以及用于相对于空间平面确定当前定向光束角度的角度传感器,角度传感器连接到 信号评估单元(4)。 用于检测方向光束(6)的定向光束传感器(7)以固定的参考方式布置并与之一起移动,定向光束传感器(7)连接到信号评估单元(4)。 信号评估单元(4)被设置用于将至少一个定向辐射器(5)的定向波束(6)跟踪到分配的移动定向波束传感器(7)上,并且用于确定工具的任意移动 作为定向光束角度的函数的三维空间。
    • 7. 发明授权
    • Device and method for tracking the movement of a tool of a handling unit
    • 用于跟踪处理单元的工具的移动的装置和方法
    • US08199316B2
    • 2012-06-12
    • US12161227
    • 2007-02-08
    • Stefan BoehmMark HellmannsKlaus DilgerKarl-Heinz Brakhage
    • Stefan BoehmMark HellmannsKlaus DilgerKarl-Heinz Brakhage
    • G01B3/08
    • G01B11/002B25J9/1697G05B19/404G05B2219/37388G05B2219/39178G05B2219/40623
    • A description is given of a device (1) for tracking the movement of a tool of a handling unit (2), having at least one directional radiator (5) that can be aligned with the tool and be tracked, and a signal evaluation unit (4) for determining the movement.The directional radiators (5) have actuators for aligning the directional beam (6) at adjustable angles with reference to a fixed spatial plane, and angle sensors for determining the current directional beam angle with reference to the spatial plane, the angle sensors being connected to the signal evaluation unit (4). Directional beam sensors (7) for detecting the directional beam (6) are arranged with a fixed reference to the tool and movably therewith, the directional beam sensors (7) being connected to the signal evaluation unit (4). The signal evaluation unit (4) is set up for tracking the directional beams (6) of the at least one directional radiator (5) onto an assigned, moving directional beam sensor (7), and for determining the arbitrary movement of the tool in three-dimensional space as a function of the directional beam angles.
    • 给出了用于跟踪处理单元(2)的工具的移动的装置(1),其具有可与工具对准的并被跟踪的至少一个定向辐射器(5)和信号评估单元 (4)用于确定运动。 定向辐射器(5)具有用于相对于固定空间平面以可调节的角度对准定向光束(6)的致动器,以及用于相对于空间平面确定当前定向光束角度的角度传感器,角度传感器连接到 信号评估单元(4)。 用于检测方向光束(6)的定向光束传感器(7)以固定的参考方式布置并与之一起移动,定向光束传感器(7)连接到信号评估单元(4)。 信号评估单元(4)被设置用于将至少一个定向辐射器(5)的定向波束(6)跟踪到分配的移动定向波束传感器(7)上,并且用于确定工具的任意移动 作为定向光束角度的函数的三维空间。