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    • 1. 发明申请
    • DIGITAL LOCATING SYSTEM AND DEVICE FOR UNDERGROUND OBJECT DETECTION
    • 数字定位系统和用于地下目标检测的设备
    • WO2006088742A2
    • 2006-08-24
    • PCT/US2006/004805
    • 2006-02-09
    • MULCAHEY, Butch
    • MULCAHEY, Butch
    • G01V3/08
    • G01V3/08G01V3/06G01V3/165G01V3/36
    • An underground digital locating system includes a receiver capable of acquiring a signal produced by an underground object and displaying a digital representation of the orientation of underground object and of its depth. The system includes a carrying case for the digital locating receiver, the carrying case further including a transmitter for energizing underground objects to emit a magnetic field. A method of locating an underground object using the described system is also disclosed, as well as methods of measuring a flux field and translating a flux field signal of an underground object into a visual representation of the underground object on the display screen of the locating receiver.
    • 地下数字定位系统包括能够获取由地下物体产生的信号并且显示地下物体的取向及其深度的数字表示的接收器。 该系统包括用于数字定位接收器的便携箱,手提箱还包括用于激励地下物体发射磁场的发射器。 还公开了使用所述系统定位地下物体的方法,以及测量通量场并将地下物体的磁通场信号转换成定位接收器的显示屏上的地下物体的视觉表示的方法 。
    • 5. 发明申请
    • DIGITAL LOCATING SYSTEM AND DEVICE FOR UNDERGROUND OBJECT DETECTION
    • 数字定位系统和用于地下目标检测的设备
    • WO2006088742A3
    • 2007-11-22
    • PCT/US2006004805
    • 2006-02-09
    • MULCAHEY BUTCH
    • MULCAHEY BUTCH
    • G01V3/08
    • G01V3/08G01V3/06G01V3/165G01V3/36
    • An underground digital locating system (10) includes a receiver (12) capable of acquiring a signal produced by an underground obj and displaying a digital representation of the orientation of underground object and of its depth. The system (10) includes a carrying case (U) for the digital locating receiver (12), the carrying case (14) further including a transmitter for energizing underground obje to emit a magnetic field. A method of locating an underground object using the described system (10) is also disclosed, as well as methods of measuring a flux field and translating a flux field signal of an underground object into a visual representation of the underground object on the display screen of the locating receiver (12).
    • 地下数字定位系统(10)包括能够获取由地下物体产生的信号并显示地下物体的取向及其深度的数字表示的接收器(12)。 所述系统(10)包括用于所述数字定位接收器(12)的便携箱(U),所述便携箱(14)还包括用于激励地下火炬发射磁场的发射器。 还公开了使用所述系统(10)定位地下物体的方法,以及测量通量场并将地下物体的通量场信号转换成地下物体在显示屏幕上的视觉表示的方法 定位接收器(12)。
    • 8. 发明申请
    • AIRBORNE ELECTROMAGNETIC SURVEY SYSTEM WITH MULTIPLE TRANSMITTER ARRANGEMENTS
    • 具有多台变送器安装的AIRBORNE电磁测量系统
    • WO2015139706A1
    • 2015-09-24
    • PCT/DK2015/050051
    • 2015-03-16
    • SELSKABET AF 6. APRIL 2010 APS
    • SØRENSEN, Kurt I.
    • G01V3/165
    • G01V3/165G01V3/36
    • An objective is achieved by an airborne electromagnetic survey system configured for geophysical prospecting (2) of an underground formation (3), which airborne electromagnetic survey system comprises a transmitter arrangement T x (10), comprising at least one current source (15) connected to at least one transmitter coil arrangement (24 covering an area A for generating a magnetic moment (5) for building up a primary electromagnetic field (11) inducing a secondary electromagnetic field (12) in the underground formation (3) and a switch arrangement comprising at least one switch inserted in between the at least one current source (15) and the at least one transmitter coil arrangement (24). The switch arrangement (20) is configured to connect (30) the at least one current source (15) with the at least one transmitter coil arrangement (24) to build up a connecting secondary electromagnetic field (38), which connect (30) is at a connection time (32) at a connection voltage (34) at a connection current (36). The switch arrangement (20) is furthermore arranged to disconnect (40) the at least one current source (15) from the at least one transmitter coil arrangement (20) to build up a disconnecting secondary electromagnetic field (48); which disconnect (40) is at a disconnection time (42) at a disconnection voltage (44) at a disconnection current (46). The connecting secondary electromagnetic field (38) and disconnecting secondary electromagnetic field (48) provide a combined secondary electromagnetic field (50). The airborne geophysical prospecting system further comprises a receiver arrangement R x comprising at least one receiver coil configured to receive the combined connecting and disconnecting secondary electromagnetic fields (50). The airborne electromagnetic survey system comprises multiple transmitter arrangements T x (101,..., 10N) generating a total secondary electromagnetic field (55) comprising a sum of individual combined secondary electromagnetic fields (501,..., 50N).
    • 目的是通过配置用于地下地层(3)的地球物理勘探(2)的机载电磁勘探系统来实现,该机载电磁勘测系统包括发射机装置Tx(10),其包括至少一个电流源(15),其连接到 至少一个发射器线圈装置(24),覆盖用于产生磁场(5)的区域A,用于建立在地下地层(3)中引起次级电磁场(12)的初级电磁场(11),以及开关装置,包括 至少一个开关,其插入到所述至少一个电流源(15)和所述至少一个发射器线圈装置(24)之间。所述开关装置(20)被配置为连接(30)所述至少一个电流源(15) 与所述至少一个发射器线圈装置(24)建立连接的次级电磁场(38),所述连接次级电磁场(38)在连接时间(32)处处于连接时间(32)处的连接电压(34)处 电流(36)。 开关装置(20)还布置成从至少一个发射器线圈装置(20)断开(40)至少一个电流源(40),以建立断开的次级电磁场(48); 在断开电流(46)处断开连接(40)处于断开电压(44)的断开时间(42)。 连接的次级电磁场(38)和断开的次级电磁场(48)提供组合的次级电磁场(50)。 机载地球物理勘探系统还包括接收器装置Rx,其包括被配置为接收组合的连接和断开次级电磁场(50)的至少一个接收器线圈。 机载电磁勘测系统包括产生包括单个组合次级电磁场(501,...,50N)之和的总次级电磁场(55)的多个发射机布置Tx(101,...,10N)。
    • 9. 发明申请
    • METHODS FOR FORMING 3D IMAGE DATA AND ASSOCIATED APPARATUSES
    • 形成三维图像数据和相关设备的方法
    • WO2017089184A1
    • 2017-06-01
    • PCT/EP2016/077750
    • 2016-11-15
    • UNIVERSITY OF NEWCASTLE UPON TYNE
    • GALLAGHER, AnthonyROBINSON, Alexander
    • G01V3/17G01V3/36G01S13/02G01S13/42G01S13/88G01S13/89G01V3/16G01S13/86B61K9/08
    • G01V3/17B61L23/048B61L25/025B61L2205/04G01S13/0209G01S13/426G01S13/86G01S13/865G01S13/885G01S13/89G01V3/16G01V3/36H01Q1/1207H01Q1/3216H01Q1/3233H01Q3/08H01Q13/02
    • A method for forming 3D image data representative of the subsurface of infrastructure located in the vicinity of a moving vehicle. The method includes: rotating a directional antenna, mounted to the moving vehicle, about an antenna rotation axis; performing, using the directional antenna whilst it is rotated about the antenna rotation axis, a plurality of collection cycles in which the directional antenna emits RF energy and receives reflected RF energy; collecting, during each of the plurality of collection cycles performed by the directional antenna: (i) radar data representative of reflected RF energy received by the directional antenna during the collection cycle; (ii) angular position data representative of an angular position of the directional antenna about the antenna rotation axis during the collection cycle; and (iii) translational position data regarding a translational position of the directional antenna during the collection cycle; processing the radar data, the angular position data and the translational position data collected during each of the plurality of collection cycles to form 3D image data representative of the subsurface of infrastructure located in the vicinity of the moving vehicle.
    • 用于形成表示位于移动车辆附近的基础设施的子表面的3D图像数据的方法。 该方法包括:围绕天线旋转轴旋转安装到移动车辆的定向天线; 在所述定向天线围绕所述天线旋转轴线旋转的同时使用所述定向天线执行多个收集循环,其中所述定向天线发射RF能量并接收反射的RF能量; 在由所述定向天线执行的所述多个收集循环中的每一个收集循环期间收集:(i)代表在所述收集循环期间由所述定向天线接收的反射RF能量的雷达数据; (ii)表示收集周期期间定向天线围绕天线旋转轴的角位置的角位置数据; 和(iii)在采集周期期间关于定向天线的平移位置的平移位置数据; 处理在多个收集周期中的每个收集周期期间收集的雷达数据,角度位置数据和平移位置数据,以形成表示位于移动车辆附近的基础设施的地下表面的3D图像数据。