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    • 1. 发明申请
    • ULTRASOUND IMAGING SYSTEM TOUCHSCREEN USER INTERFACE
    • 超声波成像系统触摸用户界面
    • WO2015145213A1
    • 2015-10-01
    • PCT/IB2014/060237
    • 2014-03-27
    • B-K MEDICAL APS
    • NIELSEN, TorbenDUNKAN, KajHANSEN, JesperANTOL, JohnLEISMANN, Michael
    • A61B8/00G03B42/06
    • A61B8/467A61B8/463G06F3/03549G06F3/0416G06F3/04883
    • An ultrasound imaging system (102) includes a probe (104) with a transducer array (106) with at least one transducer element (108). The ultrasound imaging system further includes a console (112) with a controller (124) and an echo processor. The ultrasound imaging system further includes a display monitor (122). The ultrasound imaging system further includes a touch screen user interface (128), including: a touch panel (130) with a first major surface (402, 1402) and a first recess (408, 1408) in the first major surface; and at least one touch sensitive control (134) disposed in the recess. A method includes sensing a first physical contact with a touch control recessed in a surface of a touch screen user interface, generating a signal indicative of the gesture, sensing a second physical contact with the touch control recessed in the surface of the touch screen user interface, and performing a predetermined action based on the first and second physical contact.
    • 超声成像系统(102)包括具有至少一个换能器元件(108)的具有换能器阵列(106)的探针(104)。 超声成像系统还包括具有控制器(124)和回波处理器的控制台(112)。 超声成像系统还包括显示监视器(122)。 超声成像系统还包括触摸屏用户界面(128),包括:在第一主表面中具有第一主表面(402,1402)和第一凹槽(408,1408)的触摸面板(130) 以及设置在凹部中的至少一个触敏控制器(134)。 一种方法包括利用凹入在触摸屏用户界面的表面中的触摸控制来感测第一物理接触,产生指示手势的信号,感测到与触摸屏用户界面的表面中凹入的触摸控件的第二物理接触 ,并且基于第一和第二物理接触执行预定动作。
    • 2. 发明申请
    • UNDER-KEEL INSPECTION SYSTEM
    • 底盘检查系统
    • WO2012069260A1
    • 2012-05-31
    • PCT/EP2011/068390
    • 2011-10-21
    • THE EUROPEAN UNION, REPRESENTED BY THE EUROPEAN COMMISSIONANDRITSOS, FivosGARNIER, Bernard
    • ANDRITSOS, FivosGARNIER, Bernard
    • B63B59/00G03B42/06
    • B63B59/00G03B42/06
    • An under-keel inspection system (10) for inspection of vessels (20), e.g. underway toward or away from a harbour or other protected anchorage, comprises a beam (14) configured for being arranged across a navigation corridor (18) at a depth sufficient to allow a vessel to pass above the beam during inspection. The beam has a plurality of individual hull inspection devices (12) mounted thereon, which are distributed over the length of the beam. Each inspection device is equipped, at least, with a sonar (24) and is coupled with a deployment mechanism that may individually raise and lower the inspection device perpendicular to the axis of the beam, so as to adjust the distance between the inspection device and the vessel inspected.A control unit (34) is operatively connected to the inspection devices and the deployment mechanisms, for controlling deployment of the inspection devices and processing data collected by them.
    • 用于检查容器(20)的下龙骨检查系统(10),例如。 沿着或离开港口或其他受保护的锚地的方式包括梁(14),其被配置成横跨导航走廊(18)布置,其深度足以允许船舶在检查期间通过梁的上方。 梁具有安装在其上的多个单独的船体检查装置(12),其分布在梁的长度上。 每个检查装置至少配备有声纳(24)并且与可以单独地升高和降低垂直于梁的轴线的检查装置的展开机构联接,以便调整检查装置和 检查船舶。控制单元(34)可操作地连接到检查设备和部署机构,用于控制检查设备的部署和由它们收集的处理数据。
    • 5. 发明申请
    • DEVICE AND METHOD FOR REAL-TIME 3D SONOGRAPHY
    • DEVICE AND METHOD FOR 3D实时超声
    • WO00062091A1
    • 2000-10-19
    • PCT/EP2000/002436
    • 2000-03-20
    • G01N29/44A61B8/00G01S15/89G03B42/06G01S15/87
    • G03B42/06G01S15/8993
    • The invention relates to a device and a method for real-time 3D sonography. The inventive device comprises an ultrasound head, a signal processor and a display. The ultrasound head consists of at least one transmitter and at least three receivers independent therefrom. The positions of the receivers to the transmitters is known. The inventive device is characterised in that a signal processor consists of a signal generator for producing a transmission signal with any modulation function. The signal processor also consists of a correlator on each receiver which is connected to the signal generator respectively, a calculating unit for determining the paths of the transmission signal via the reflecting structure and to the receivers on each correlator and a calculating unit for determining the space co-ordinates of the reflecting structure, whereby each calculating unit is connected to the space co-ordinates for determining the paths of the transmission signal via the reflecting structure and to the receivers.
    • 本发明涉及一种装置和使用超声波头,信号处理和显示装置,其中,至少一个发射机和该超声头分别是至少三个接收器,所述发射器的位置是已知的,并且其中3D超声用于实时的方法, 由信号发生器,用于与任意的调制功能,在每个接收器中的相关器,其被分别连接到信号发生器,计算单元,用于在每个相关器经由所述反射结构的接收器确定所述发射信号的路径来生成发送信号的信号处理 和用于确定所述反射结构的空间坐标计算单元,是连接于该各计算单元,用于经由所述反射结构的接收器确定所述发射信号的路径,组成。