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    • 51. 发明授权
    • Spatial diversity receiving device and input channel switching method
    • 空间分集接收设备和输入通道切换方法
    • US07627301B2
    • 2009-12-01
    • US11636084
    • 2006-12-08
    • Saixin ZhouLiusi YeHong ChenYunhui SheFang LiuYueping Zuo
    • Saixin ZhouLiusi YeHong ChenYunhui SheFang LiuYueping Zuo
    • H04B1/06H04Q7/20
    • H04B7/082H04B7/0814H04B17/318H04M1/576
    • The invention relates to a spatial diversity receiving device and an input channel switching method. The device comprises a main control circuit and at least one receiving channel including a RF selective switch, wherein the circuit controls the switch, so as to select one of the plurality of input signals from the plurality of antennae and send that signal to a receiving module. The module comprises a RSSI unit for outputting a RSSI value and sends the value to the circuit. On basis of a real time analysis to the receiving signal, the circuit selects a predetermined occasion to perform a compulsive switching and dynamically selects the antenna with a stronger signal so that the generation of error code due to transient interference may be reduced. The system exhibits an excellent resistance to wireless signal fading, and has a simple structure as well as a low cost and power consumption.
    • 本发明涉及空间分集接收装置和输入信道切换方法。 该装置包括主控制电路和至少一个包括RF选择开关的接收通道,其中电路控制开关,以从多个天线中选择多个输入信号中的一个,并将该信号发送到接收模块 。 该模块包括用于输出RSSI值并将该值发送到电路的RSSI单元。 基于对接收信号的实时分析,电路选择预定的时机进行强迫切换,并且动态地选择具有较强信号的天线,从而可以减少由于瞬时干扰引起的错误码的产生。 该系统具有优异的抗无线信号衰落性,结构简单,成本低,功耗低。
    • 52. 发明授权
    • Operator for casement type window
    • 窗扇类型窗口的操作符
    • US07614184B2
    • 2009-11-10
    • US11004126
    • 2004-12-06
    • Jacob RebelHong Chen
    • Jacob RebelHong Chen
    • E05F11/28
    • E05F11/24Y10T74/18792Y10T74/19828
    • An operator comprising a housing ending in a flange is provided with a turret incorporating a stepped bore for locating a worm shaft of a drive mechanism. A first seal is disposed between the worm shaft and the stepped bore. A second seal is interposed between the flange and a frame of a window. An interconnecting mechanism driven by the worm shaft comprises a pair of worm arms followed by a pair of links. The former and the latter are provided with male and female ends using, respectively, a calotte of a sphere complemented by a spherical shaped recess. Thus, between the pair of worm arms and the pair of links, pivotal joints are formed.
    • 包括端部在凸缘中的壳体的操作器设置有包括用于定位驱动机构的蜗杆的阶梯孔的转台。 第一密封件设置在蜗杆轴和阶梯孔之间。 第二密封件插入在凸缘和窗框之间。 由蜗杆轴驱动的互连机构包括一对跟随有一对连杆的蜗杆臂。 前者和后者分别设置有阳和女端部,分别使用由球形凹部补充的球体的杯状物。 因此,在一对蜗杆与一对连杆之间形成枢转接头。
    • 59. 发明申请
    • Automated Data Processing Reconstruction System And Method
    • 自动数据处理重建系统及方法
    • US20080155539A1
    • 2008-06-26
    • US11613940
    • 2006-12-20
    • Edward J. DarlandHong ChenMaithilee L. Samant
    • Edward J. DarlandHong ChenMaithilee L. Samant
    • G06F9/46
    • G06F16/2308
    • A data processing system performs a procedure including respective tasks, each respective task including one of producing and processing a respective data object. The system comprises memory; and a processor having program instructions for maintaining a respective data structure for each respective one of the tasks. The data structure includes instructions and parameters for performing the respective task. The processor also has program instructions for determining whether to save the respective data object in memory or to purge the respective data object based on usage and capacity of the memory; and, where the respective data object has been purged and is now needed again, reconstructing the purged data object using the respective data structure.
    • 数据处理系统执行包括各个任务的过程,每个相应的任务包括产生和处理相应的数据对象之一。 该系统包括存储器; 以及具有程序指令的处理器,用于为每个任务中的每一个保持相应的数据结构。 数据结构包括用于执行相应任务的指令和参数。 处理器还具有用于确定是否将相应的数据对象保存在存储器中或者根据存储器的使用和容量清除相应的数据对象的程序指令; 并且其中相应的数据对象已被清除并且现在再次需要时,使用相应的数据结构来重建清除的数据对象。
    • 60. 发明申请
    • System and Method for Magnetic Resonance Brain Scan Planning
    • 磁共振脑扫描规划系统与方法
    • US20080071163A1
    • 2008-03-20
    • US11856104
    • 2007-09-17
    • Li ZhangCarol NovaxHong ChenQing Xu
    • Li ZhangCarol NovaxHong ChenQing Xu
    • A61B5/055
    • A61B5/055A61B5/0037A61B5/6814G01R33/4833
    • A method and system for automatic MR brain scan planning is disclosed. The method utilizes a set of 2D orthogonal localizer images to determine scanning planes for 3D diagnostic MR scans. A location of the mid-sagittal plane (MSP) is detected in each of a transversal localizer image and a coronal localizer image. A sagittal scanning plane is determined based on the location of the MSP in the transversal and coronal localizer images. A diagnostic sagittal MR scan is then acquired based on the sagittal scanning plane. The corpus callosum CC is segmented in a sagittal MR image slice resulting from the diagnostic sagittal MR scan. A transversal scanning plane can be determined based on a location of the CC in the sagittal MR image slice and the location of the MSP in the coronal localizer image, and a coronal scanning plane can be determined based on the location of the CC in the sagittal MR image slice and the location of the MSP in the transversal localizer image.
    • 公开了用于自动MR脑扫描计划的方法和系统。 该方法利用一组2D正交定位图像来确定3D诊断MR扫描的扫描平面。 在横向定位器图像和冠状定位器图像中的每一个中检测到中间矢状面(MSP)的位置。 基于MSP在横向和冠状定位器图像中的位置来确定矢状扫描平面。 然后基于矢状扫描平面获取诊断矢状MR扫描。 胼um体CC被分割成由诊断矢状MR扫描得到的矢状MR图像切片。 可以基于矢状位MR图像切片中的CC的位置和冠状位置定位器图像中的MSP的位置来确定横向扫描平面,并且可以基于CC在矢状位置中的位置来确定冠状扫描平面 MR图像切片和MSP在横向定位器图像中的位置。