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    • 2. 发明授权
    • MRI front end apparatus and method of operation
    • MRI前端装置及其操作方法
    • US5461314A
    • 1995-10-24
    • US139177
    • 1993-10-21
    • Mitsuaki ArakawaHsu ChangJohn Van Heteren
    • Mitsuaki ArakawaHsu ChangJohn Van Heteren
    • A61B5/055G01R33/341G01R33/3415G01R33/36G01R33/58G01V3/00
    • G01R33/3628G01R33/3415G01R33/3642G01R33/3678G01R33/583
    • A front end unit (32) for a magnetic resonance imaging (MRI) system (20) comprises a plurality of coil attachment ports (46) to which an RF signal or tuning signal is selectively routed thereby permitting, during operation, coils (22) to remain attached to each of the plurality of ports. A signal routing controller (28, 30) selects to which of the ports the RF signal or tuning signal is to be routed. The RF front end Knit (32) is also known as the relay switchboard assembly or RSB. Each port of the RF front end is attached to a different RF coil or RF coil combination. Tuning and imaging operations can be conducted for a plurality of coils in succession, without coils having to be detached from the RF front end. The signal routing controller selectively applies the RF signal (from an RF unit) or the tuning signal (from a tuning controller) to the selected coil through a signal path unique to the selected coil. Coils not selected to be operative can be detuned.
    • 用于磁共振成像(MRI)系统(20)的前端单元(32)包括多个线圈附接端口(46),RF信号或调谐信号被选择性地布线到所述多个线圈附接端口,从而在操作期间允许线圈(22) 以保持附接到多个端口中的每一个。 信号路由选择控制器(28,30)选择RF信号或调谐信号要路由的哪个端口。 RF前端针织(32)也称为中继配电板组件或RSB。 RF前端的每个端口连接到不同的RF线圈或RF线圈组合。 可以连续地对多个线圈进行调谐和成像操作,而不必将线圈从RF前端分离。 信号路由控制器通过所选线圈唯一的信号路径选择性地将RF信号(来自RF单元)或调谐信号(来自调谐控制器)施加到所选择的线圈。 不选择操作的线圈可能失谐。
    • 3. 发明授权
    • MRI front end apparatus and method of operation
    • MRI前端装置及其操作方法
    • US5565779A
    • 1996-10-15
    • US476586
    • 1995-06-07
    • Mitsuaki ArakawaHsu ChangJohn Van Heteren
    • Mitsuaki ArakawaHsu ChangJohn Van Heteren
    • A61B5/055G01R33/341G01R33/3415G01R33/36G01R33/58G01V3/00
    • G01R33/3628G01R33/3415G01R33/3642G01R33/3678G01R33/583
    • A front end unit (32) for a magnetic resonance imaging (MRI) system (20) comprises a plurality of coil attachment ports (46) to which an RF signal or tuning signal is selectively routed thereby permitting, during operation, coils (22) to remain attached to each of the plurality of ports. A signal routing controller (28, 30) selects to which of the ports the RF signal or tuning signal is to be routed. The RF front end unit (32) is also known as the relay switch board assembly or RSB. Each port of the RF front end is attached to a different RF coil or RF coil combination. Tuning and imaging operations can be conducted for a plurality of coils in succession, without coils having to be detached from the RF front end. The signal routing controller selectively applies the RF signal (from an RF unit) or the tuning signal (from a tuning controller) to the selected coil through a signal path unique to the selected coil. Coils not selected to be operative can be detuned.
    • 用于磁共振成像(MRI)系统(20)的前端单元(32)包括多个线圈附接端口(46),RF信号或调谐信号被选择性地布线到所述多个线圈附接端口,从而在操作期间允许线圈(22) 以保持附接到多个端口中的每一个。 信号路由选择控制器(28,30)选择RF信号或调谐信号要路由的哪个端口。 RF前端单元(32)也称为继电器开关板组件或RSB。 RF前端的每个端口连接到不同的RF线圈或RF线圈组合。 可以连续地对多个线圈进行调谐和成像操作,而不必将线圈从RF前端分离。 信号路由控制器通过所选线圈唯一的信号路径选择性地将RF信号(来自RF单元)或调谐信号(来自调谐控制器)施加到所选择的线圈。 不选择操作的线圈可能失谐。
    • 6. 发明申请
    • Intelligent two-way telemetry
    • 智能双向遥测
    • US20060111796A1
    • 2006-05-25
    • US11287748
    • 2005-11-28
    • John Van Heteren
    • John Van Heteren
    • G05B11/01
    • G01D4/004G06Q50/06Y02B90/242Y02B90/246Y04S20/322Y04S20/42
    • Methods and apparatus, including computer program products, implementing and using techniques for intelligent two-way telemetry. A telemetry system in accordance with the invention includes one or more telemetry units that can receive and send data The system further includes one or more controllers that includes intelligence for processing data from the one or more telemetry units and for autonomously communicating with the one or more telemetry units. The controllers are separately located from a data processing center of the telemetry system such that the controllers alleviate data congestion going to and coming from the data processing center.
    • 方法和设备,包括计算机程序产品,实现和使用智能双向遥测技术。 根据本发明的遥测系统包括可以接收和发送数据的一个或多个遥测单元。系统还包括一个或多个控制器,其包括用于处理来自一个或多个遥测单元的数据的智能,并且用于与一个或多个 遥测单位。 控制器分别位于遥测系统的数据处理中心,使得控制器缓解来自数据处理中心的数据拥塞。