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    • 105. 发明申请
    • POSITIONING ELECTROMAGNETIC FIELD GENERATORS FOR INTERVENTIONAL PROCEDURES
    • 定位电磁场发生器用于传统程序
    • WO2016092461A1
    • 2016-06-16
    • PCT/IB2015/059421
    • 2015-12-07
    • KONINKLIJKE PHILIPS N.V.
    • BHARAT, Shyam
    • A61N5/10A61B8/00A61B5/06A61B34/20A61B34/00A61B10/02
    • A61N5/1001A61B5/061A61B10/0241A61B2017/00274A61B2018/00547A61B2034/2051A61B2034/2059A61B2090/067A61B2090/378A61N5/1049A61N5/1075A61N2005/1051A61N2005/1058A61N2005/1074
    • An intervention system employing an electromagnetic field ("EMF") generator (10), an ultrasound stepper (11), and a mounting arm (20) coupling EMF field generator (10) to ultrasound stepper (11). For this coupling, mounting arm (20) includes strut(s) (30) and joint(s) (40). Each joint (40) is connected to a strut (30), EMF generator (10) and/or ultrasound stepper (11) for positioning and supporting EMF generator (10) in an emission position relative to ultrasound stepper (11) (e.g., (e.g., rotary/lateral joint(s) for rotational/linear motion of the strut(s) positioning and supporting the EMF generator in an angular orientation located above the ultrasound stepper). Each joint (40) includes an encoder (50) for generating parameter data quantitatively indicative of the emission position of EMF generator (10) relative to ultrasound stepper (11) (e.g., rotary/linear encoder(s) generating rotational/linear parameter data quantifying the angular orientation/lateral displacement of the strut(s) to each other, to the EMF generator and/or to the ultrasound stepper).
    • 使用电磁场(EMF)发生器(10),超声波步进器(11)和将EMF场产生器(10)耦合到超声步进机(11)的安装臂(20)的干预系统。 对于该联接,安装臂(20)包括支柱(30)和接头(40)。 每个接头(40)连接到支柱(30),EMF发生器(10)和/或超声步进器(11),用于将EMF发生器(10)定位和支撑在相对于超声步进器(11)的发射位置(例如, (例如,用于支架的旋转/线性运动的旋转/横向接头定位并以位于超声步进机上方的角度定位并支撑EMF发生器),每个接头(40)包括编码器(50),用于 产生相对于超声波步进器(11)定量地指示EMF发生器(10)的发射位置的参数数据(例如,产生旋转/线性参数数据的旋转/线性编码器,其量化支柱的角取向/横向位移 )到EMF发生器和/或超声步进机)。
    • 107. 发明申请
    • SYSTEM AND COMPUTER PROGRAM PRODUCT FOR INVERSE TREATMENT PLANNING.
    • 用于逆向处理规划的系统和计算机程序产品。
    • WO2015193161A1
    • 2015-12-23
    • PCT/EP2015/063007
    • 2015-06-11
    • SWISS SUMMIT SERVICE CENTER SA
    • MARTIN, AndréSALZMANN, Daniel
    • A61N5/10
    • A61N5/1031A61B6/5294A61B6/54A61N5/103A61N5/1038A61N5/1042A61N5/1047A61N5/1071A61N5/1075G01T1/2914G05B2219/33079G06F17/16G06F17/30271
    • The present invention concerns an inverse treatment planning system, comprising: at least a data bus system (102), a memory (106) coupled to the data bus system (102), wherein the memory (106) comprises a computer usable program code, and a processing unit (104) coupled to the data bus system (102), wherein the processing unit (104) is configured to execute the computer usable program code to pre-compute (10) a set of individual dose shots (a j ), each individual dose shot having a predetermined location inside and/or outside a target area, a size and a shape, associate (40) a weight (¾) to each individual dose shot (a j ), based on one or more constraints (20), characterised in that the processing unit (104) executes the computer usable program code to find (30) the sparsest subset of individual dose shots, so as to satisfy said one or more constraints (20).
    • 本发明涉及一种反向治疗计划系统,包括:至少数据总线系统(102),耦合到数据总线系统(102)的存储器(106),其中存储器(106)包括计算机可用程序代码, 以及耦合到所述数据总线系统(102)的处理单元(104),其中所述处理单元(104)被配置为执行所述计算机可用程序代码以预先计算(10)一组单独剂量镜头(aj), 基于一个或多个约束(20),在目标区域内部和/或外部具有预定位置的每个单独剂量射击,尺寸和形状,将(40)每个单独剂量射击(aj)的重量(¾) 其特征在于,所述处理单元(104)执行所述计算机可用程序代码以找到(30)所述单个剂量镜头的最小子集,以便满足所述一个或多个约束(20)。
    • 108. 发明申请
    • 방사선 치료기의 품질 보증 시스템 및 그 품질 보증 방법
    • 辐射治疗机质量保证体系及其质量保证方法
    • WO2015060691A1
    • 2015-04-30
    • PCT/KR2014/010083
    • 2014-10-24
    • 사회복지법인 삼성생명공익재단
    • 한영이신은혁신정석박희철최두호조준상
    • G06T7/00
    • G06T7/0004A61N5/1075A61N5/1081A61N2005/1059G06T7/0002G06T2207/10116G06T2207/30168
    • 본 발명은 방사선 치료기의 동작 상태를 확인할 수 있는 영상을 획득 후, 분석 작업을 통해 방사선 치료기의 품질 상태를 확인하고, 조절할 수 있는 방사선 치료기의 품질 보증 시스템 및 그 품질보증 방법에 관한 것으로, 방사선 치료기에 장착되어, 방사선 치료기 구동 상황을 표시하는 표시부재를 촬영하는 영상촬영부, 상기 표시부재가 촬영된 영상을 분석하여, 방사선 치료기의 품질 상태를 판단하는 동작을 제어하는 품질보증 제어부, 상기 품질보증 제어부의 제어 신호에 따라 상기 영상촬영부에서 획득된 영상의 윤곽선을 도출하는 영상처리부, 상기 윤곽선을 기준으로 중심점을 도출하는 중심점 도출부 및 상기 중심점의 움직임을 추적하여, 방사선 치료기의 품질을 평가하는 품질 평가부를 포함하는 것을 기술적 특징으로 한다.
    • 本发明涉及一种放射治疗机的质量保证体系,其可以在获得其中识别出放射治疗机的操作状态的图像和质量之后通过分析操作来识别和调整放射治疗机的质量状态 该系统包括:图像拍摄单元,安装在放射治疗机中并拍摄显示放射线治疗机驱动情况的显示部件; 质量保证控制单元,其通过分析其中拍摄显示构件的图像来控制确定所述放射线治疗机的质量状态的操作; 图像处理单元,根据质量保证控制单元的控制信号,导出从图像拍摄单元获得的图像的轮廓; 中心点导出单元,其相对于轮廓导出中心点; 以及质量评估单元,其跟踪中心点的运动以评估放射治疗机的质量。