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    • 1. 发明授权
    • Method of configuring a multi-network terminal and an associated multi-network terminal
    • 配置多网终端及相关多网终端的方法
    • US08086193B2
    • 2011-12-27
    • US12307306
    • 2007-06-19
    • Vincent AuvrayPatrick Bauban
    • Vincent AuvrayPatrick Bauban
    • H01Q11/12
    • H04L41/0206H04M2215/2026H04W4/24H04W48/18H04W88/06
    • A method and apparatus are provided for configuring a multi-network telecommunications terminal, which communicates with a number of telecommunications networks offering a plurality of telecommunications services. The terminal includes a plurality of interfaces for accessing the services offered. When the terminal accesses one of the services offered, via one of the networks, the following steps are performed: a) determining the type of network with which the terminal is in the process of connecting, b) activating the access interface associated with the service which the terminal is intended to access, c) requesting, at the level of the activated access interface, configuration parameters which are dependent on the activated access interface and the network in the process of connection, d) extracting, at the level of a module for centralizing configuration parameters, the requested configuration parameters, e) obtaining, at level of the activated access interface, the extracted configuration parameters.
    • 提供了一种用于配置与提供多个电信服务的多个电信网络进行通信的多网络电信终端的方法和装置。 终端包括用于访问提供的服务的多个接口。 当终端通过其中一个网络访问提供的服务之一时,执行以下步骤:a)确定终端处于连接过程中的网络类型,b)激活与该服务相关联的接入接口 c)在激活的接入接口的级别请求在连接过程中取决于激活的接入接口和网络的配置参数,d)在模块的级别提取 用于集中配置参数,所请求的配置参数,e)在激活的访问接口的级别获取所提取的配置参数。
    • 2. 发明申请
    • METHOD OF CONFIGURING A MULTI-NETWORK TERMINAL AND AN ASSOCIATED MULTI-NETWORK TERMINAL
    • 配置多网终端和相关多网终端的方法
    • US20090203397A1
    • 2009-08-13
    • US12307306
    • 2007-06-19
    • Vincent AuvrayPatrick Bauban
    • Vincent AuvrayPatrick Bauban
    • H04M1/00
    • H04L41/0206H04M2215/2026H04W4/24H04W48/18H04W88/06
    • A method and apparatus are provided for configuring a multi-network telecommunications terminal, which communicates with a number of telecommunications networks offering a plurality of telecommunications services. The terminal includes a plurality of interfaces for accessing the services offered. When the terminal accesses one of the services offered, via one of the networks, the following steps are performed: a) determining the type of network with which the terminal is in the process of connecting, b) activating the access interface associated with the service which the terminal is intended to access, c) requesting, at the level of the activated access interface, configuration parameters which are dependent on the activated access interface and the network in the process of connection, d) extracting, at the level of a module for centralizing configuration parameters, the requested configuration parameters, e) obtaining, at level of the activated access interface, the extracted configuration parameters.
    • 提供了一种用于配置与提供多个电信服务的多个电信网络进行通信的多网络电信终端的方法和装置。 终端包括用于访问提供的服务的多个接口。 当终端通过其中一个网络访问提供的服务之一时,执行以下步骤:a)确定终端处于连接过程中的网络类型,b)激活与该服务相关联的接入接口 c)在激活的接入接口的级别请求在连接过程中取决于激活的接入接口和网络的配置参数,d)在模块的级别提取 用于集中配置参数,所请求的配置参数,e)在激活的访问接口的级别获取所提取的配置参数。
    • 3. 发明申请
    • 3D-ORIGINATED CARDIAC ROADMAPPING
    • 3D原版CARDIAC ROADMAPPING
    • US20130116551A1
    • 2013-05-09
    • US13810292
    • 2011-07-15
    • Raoul FlorentVincent AuvrayMichael GrassDirk SchaeferGert Schoonenberg
    • Raoul FlorentVincent AuvrayMichael GrassDirk SchaeferGert Schoonenberg
    • A61B6/02
    • A61B6/022A61B6/12A61B6/4441A61B6/463A61B6/487A61B6/504A61B6/5223A61B6/5235A61B2090/364A61B2090/367
    • The present invention relates to 3D-originated cardiac roadmapping. In order to improve the accuracy of the information provided to the user as navigation information, without any additional burden to the patient such as additional X-ray dose, a method is described comprising the steps of a) providing 3D+t image data of a vascular structure of an object; b) acquiring two-dimensional image data of the object, which object comprises the vascular structure, the 2D image data comprising at least one 2D image; c) projecting the vascular structure, thereby generating a plurality of mask images on the basis of a 3D+t image data; d) registering the at least one 2D image with one of the plurality of the mask images, wherein the registration comprises finding the maximum of a similarity factor between the mask images and the at least one 2D image; e) generating a combination of the at least one 2D image and a projection of the vascular structure on the basis of the 3D+t image data according to the registration; and f) displaying the combination as a guiding vessel tree projection. Thus improved cardiac roadmapping in form of a topographical roadmapping is provided since the roadmapping is based on three-dimensional data.
    • 本发明涉及3D起源的心脏路线图。 为了提高作为导航信息提供给用户的信息的准确性,对病人没有任何额外的负担,例如额外的X射线剂量,描述了一种方法,其包括以下步骤:a)提供一个 物体的血管结构; b)获取所述对象的二维图像数据,所述对象包括所述血管结构,所述2D图像数据包括至少一个2D图像; c)投影血管结构,从而基于3D + t图像数据生成多个掩模图像; d)使用所述多个掩模图像之一登记所述至少一个2D图像,其中所述注册包括找到所述掩模图像与所述至少一个2D图像之间的相似性因子的最大值; e)根据所述注册,基于所述3D + t图像数据生成所述至少一个2D图像和所述血管结构的投影的组合; 以及f)将组合显示为引导血管树投影。 因此,由于路线图基于三维数据,所以提供了形成路面图的形式的改进的心脏路线图。
    • 6. 发明申请
    • ADAPTIVE ROADMAPPING
    • 自适应路线
    • US20130322724A1
    • 2013-12-05
    • US13810680
    • 2011-07-15
    • Raoul FlorentVincent AuvrayMichael GrassDirk SchaeferGert Schoonenberg
    • Raoul FlorentVincent AuvrayMichael GrassDirk SchaeferGert Schoonenberg
    • G06T7/00
    • G06T7/0012A61B6/12A61B6/463A61B6/487A61B6/504A61B6/5235A61B90/37A61B2090/364A61B2090/365A61B2090/3764G06T7/32G06T19/00G06T2207/10121G06T2207/30101
    • The invention relates to adaptive roadmapping providing improved information to the user, comprising the following steps: providing pre-navigation image data representing at least a part of a vascular structure comprising a tree-like structure with a plurality of sub-trees; generating a vessel representation on the basis of pre-navigation image data; acquiring live image data of the object, which object comprises the vascular structure; wherein the vascular structure contains an element of interest; determining spatial relation of the pre-navigation image data and the live image data; analysing the live image data by identifying and localizing the element in the live image data; determining a sub-tree in which the element is positioned, wherein the determining is based on the localization of the element and on the spatial relation; and selecting a portion of the vascular structure based on the determined sub-tree; generating a combination of the live image data and an image of the selected portion of the vascular structure; and displaying the combination as a tailored roadmap. The element may be physical object, for example an interventional tool or device.
    • 本发明涉及向用户提供改进信息的自适应路线图,包括以下步骤:提供表示包括具有多个子树的树状结构的血管结构的至少一部分的导航前图像数据; 基于导航前图像数据生成船舶表示; 获取对象的实时图像数据,该对象包括血管结构; 其中所述血管结构含有感兴趣的元件; 确定所述导航前图像数据和实况图像数据的空间关系; 通过识别和定位实时图像数据中的元素来分析实况图像数据; 确定所述元素所在的子树,其中所述确定基于所述元素的定位和所述空间关系; 以及基于所确定的子树选择所述血管结构的一部分; 生成活体图像数据和血管结构的所选部分的图像的组合; 并将该组合显示为定制的路线图。 该元件可以是物理对象,例如介入工具或设备。
    • 7. 发明授权
    • Method and system for treating noise in a generated image
    • 用于处理所生成图像中的噪声的方法和系统
    • US08121192B2
    • 2012-02-21
    • US11401043
    • 2006-04-10
    • Jean LienardVincent AuvrayRégis Vaillant
    • Jean LienardVincent AuvrayRégis Vaillant
    • H04N7/12
    • G06T5/002G06T5/50G06T7/223G06T2207/10121G06T2207/20221G06T2207/30004
    • A process and system for improving a digital image of an object defined by pixels, acquired at the instant t and generated from an X-ray detector receiving X-rays emitted by a source. The process includes: determining a predicted image of the object at the instant t as a function of the images of the object acquired at the instants t−i, i being a positive whole number greater than or equal to 1, and moving of each of the layers constituting the image acquired at the instant t, the number of layers being previously fixed and the moving of each of the layers being previously determined; and generating a visualized image corresponding to a weighted sum of the predicted image and the image of the object acquired at the instant t, so as to attenuate the noise of the image of the object acquired at the instant t.
    • 一种用于改善由时刻t获取并由接收由源发射的X射线的X射线检测器产生的由像素定义的对象的数字图像的处理和系统。 该过程包括:根据在时刻t-i,i为大于或等于1的正整数获得的对象的图像的函数,确定在时刻t的对象的预测图像,以及每个 构成在时刻t获取的图像的层,先前固定的层的数量和预先确定的每个层的移动; 并产生对应于在时刻t获取的预测图像和对象图像的加权和的可视化图像,以便衰减在时刻t获取的对象的图像的噪声。
    • 10. 发明授权
    • System and method for exchanging information in a multimedia terminal
    • 用于在多媒体终端中交换信息的系统和方法
    • US09164816B2
    • 2015-10-20
    • US12738387
    • 2008-10-13
    • Vincent AuvrayGuillaume Desfeux
    • Vincent AuvrayGuillaume Desfeux
    • G06F15/16G06F9/54
    • G06F9/541G06F2209/541
    • A system for data exchange in a multimedia terminal, said terminal comprising native applications (2) executable directly by the terminal and local applications (4) and also remote applications (6) executable through Internet browser software (8). This system comprises a module (18) for detecting the operation of applications (4, 6) that are executable through Internet browser software, a downlink interface (10A) for data exchange between the applications (4, 6) that are executable through Internet browser software and the native applications and an uplink interface (10B) for data exchange between the native applications and the local applications, said detecting module and said downlink and uplink interfaces being adapted for exchanging data.
    • 一种用于多媒体终端中的数据交换的系统,所述终端包括由终端和本地应用程序(4)直接执行的本地应用程序(2)以及可通过因特网浏览器软件(8)执行的远程应用程序(6)。 该系统包括用于检测可通过因特网浏览器软件执行的应用程序(4,6)的操作的模块(18),用于可通过因特网浏览器执行的应用程序(4,6)之间的数据交换的下行链路接口(10A) 软件和本地应用以及用于本地应用和本地应用之间的数据交换的上行链路接口(10B),所述检测模块和所述下行链路和上行链路接口适于交换数据。