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    • 1. 发明申请
    • Control Channel Demodulating and Decoding Method and Communication Apparatus Using the Same
    • 控制信道解调和解码方法及其通信装置
    • US20130294547A1
    • 2013-11-07
    • US13525768
    • 2012-06-18
    • Richard A. LaneMark B. MurphyCyril Valadon
    • Richard A. LaneMark B. MurphyCyril Valadon
    • H04L27/28
    • H04L1/0052H04L1/0036H04L5/0053H04L5/0094H04L27/2647
    • Techniques are provided for a demodulation and decoding method and apparatus for a given user equipment device to receive a one or more Orthogonal Frequency Division Multiplex (OFDM) symbols over a control channel, where the OFDM symbols comprise a plurality of resource element groups distributed in time and frequency that are combined to form control channel elements. Those resource element groups that form specific control channel elements for the user equipment device and those resource element groups that form common control channel elements for one or more user equipment devices including the given user equipment device are identified. The resource element groups that form the specific control channel elements and the resource element groups that form the common control channel elements are demodulated to generate encoded control messages comprising one or more control channel elements.
    • 提供了用于给定用户设备设备在控制信道上接收一个或多个正交频分复用(OFDM)符号的解调和解码方法和装置的技术,其中OFDM符号包括分布在时间上的多个资源元素组 和组合以形成控制信道元素的频率。 识别形成用户设备设备的特定控制信道元素的那些资源元素组以及形成用于包括给定用户设备设备的一个或多个用户设备设备的公共控制信道元素的那些资源元素组。 形成形成公共控制信道单元的特定控制信道单元和资源单元组的资源单元组被解调,以产生包括一个或多个控制信道单元的编码控制消息。
    • 3. 发明授权
    • Control channel demodulating and decoding method and communication apparatus using the same
    • 控制信道解调和解码方法及使用其的通信装置
    • US08718201B2
    • 2014-05-06
    • US13525768
    • 2012-06-18
    • Richard A. LaneMark B. MurphyCyril Valadon
    • Richard A. LaneMark B. MurphyCyril Valadon
    • H04L27/08
    • H04L1/0052H04L1/0036H04L5/0053H04L5/0094H04L27/2647
    • Techniques are provided for a demodulation and decoding method and apparatus for a given user equipment device to receive a one or more Orthogonal Frequency Division Multiplex (OFDM) symbols over a control channel, where the OFDM symbols comprise a plurality of resource element groups distributed in time and frequency that are combined to form control channel elements. Those resource element groups that form specific control channel elements for the user equipment device and those resource element groups that form common control channel elements for one or more user equipment devices including the given user equipment device are identified. The resource element groups that form the specific control channel elements and the resource element groups that form the common control channel elements are demodulated to generate encoded control messages comprising one or more control channel elements.
    • 提供了用于给定用户设备设备在控制信道上接收一个或多个正交频分复用(OFDM)符号的解调和解码方法和装置的技术,其中OFDM符号包括分布在时间上的多个资源元素组 和组合以形成控制信道元素的频率。 识别形成用户设备设备的特定控制信道元素的那些资源元素组以及形成用于包括给定用户设备设备的一个或多个用户设备设备的公共控制信道元素的那些资源元素组。 形成形成公共控制信道单元的特定控制信道单元和资源单元组的资源单元组被解调,以产生包括一个或多个控制信道单元的编码控制消息。
    • 6. 发明授权
    • Orthopaedic assembly including an acetabular cup and cup inserter
    • 骨科组件包括髋臼杯和杯子插入器
    • US5904688A
    • 1999-05-18
    • US1214
    • 1997-12-30
    • Stephen G. GilbertRodney L. BaysBilly N. SiskRichard A. Lane
    • Stephen G. GilbertRodney L. BaysBilly N. SiskRichard A. Lane
    • A61F2/00A61F2/30A61F2/34A61F2/46A61F5/04
    • A61F2/34A61F2/4609A61F2/30907A61F2002/30168A61F2002/30225A61F2002/30426A61F2002/30505A61F2002/3083A61F2002/3443A61F2002/4624A61F2002/4631A61F2002/4689A61F2220/0025A61F2230/0043A61F2230/0069A61F2310/00011
    • An orthopaedic assembly includes a first portion or an acetabular cup and a second connecting portion or a cup inserter. The acetabular cup includes a cavity for receiving a femoral head and a pole defining a longitudinal axis through the cavity. The acetabular cup further includes an annular face which bounds the cavity and has a plurality of notches extending therein. Each notch includes an undercut wall. The annular face further includes a projection receiving device. A cup inserter includes a body with an end face and a plurality of fingers extending from the end face. Each finger is insertable into a corresponding one of the notches in a direction parallel to the longitudinal axis and is rotatable around the longitudinal axis to a locking position. Each finger includes a transverse surface which matingly engages with a corresponding one of the undercut walls when the finger is in the locking position. The cup inserter further includes a projection and a biasing device. The projection is slidably carried within the body and is movable between a retracted position and an extended position. The biasing device biases the projection toward the extended position. The projection is biased to the extended position and received within the projection receiving device of the cup when each finger is in the locking position.
    • 整形外科组件包括第一部分或髋臼杯和第二连接部分或杯子插入器。 髋臼杯包括用于接收股骨头的腔和限定穿过腔的纵轴的杆。 髋臼杯还包括限定空腔并且在其中延伸的多个凹口的环形面。 每个凹口包括底切壁。 环形面还包括投影接收装置。 杯插入器包括具有端面的主体和从端面延伸的多个指状物。 每个手指可以在平行于纵向轴线的方向上插入对应的一个切口,并且可绕纵向轴线转动到锁定位置。 每个手指包括当手指处于锁定位置时与相应的一个底切壁配合地接合的横向表面。 杯插入器还包括突起和偏置装置。 突起可滑动地承载在主体内并且可在缩回位置和延伸位置之间移动。 偏置装置将突起朝向伸出位置偏压。 当每个手指处于锁定位置时,突出部被偏置到延伸位置并且被接纳在杯的投影接收装置内。
    • 8. 发明授权
    • Tibial resector guide
    • 胫骨检查指南
    • US5451228A
    • 1995-09-19
    • US194947
    • 1994-02-14
    • Todd S. JohnsonRichard A. LaneThomas D. PetersenChuck NicholsJohn R. Howard
    • Todd S. JohnsonRichard A. LaneThomas D. PetersenChuck NicholsJohn R. Howard
    • A61B17/15A61F5/00A61F2/32
    • A61B17/157
    • A tibial resector guide having an angularly adjustable head controlled by a thumb actuated slide mechanism. The head may be positioned in a plurality of predetermined angular orientations in the anterior-posterior plane. The cutting head guide includes angled side walls which permit the guide to have a narrow aperture yet allow the saw blade to completely pass through the tibia. Further, the tibial resector of this invention includes a telescoping rod and a length adjustment mechanism adjacent the head for providing small height adjustments for positioning the head. The length adjustment member includes an enlarged thumb wheel to ease operation. A pinning platform is connected to the adjustment member such that it is shiftable with the adjustment member relative to the guide head. The pinning platform permits the surgeon to pin the upper end of the instrument to the patient's leg preventing movement of the instrument during resection. After pinning, the head may be further adjusted in height by rotating the adjustment member. The instrument further includes a sliding ankle adjustment to provide proper alignment of the guide with the tibia and femur.
    • 具有由拇指致动的滑动机构控制的可角度调节的头部的胫骨重建器引导件。 头部可以位于前 - 后平面中的多个预定角度取向中。 切割头引导件包括成角度的侧壁,其允许引导件具有窄的孔口,但是允许锯片完全通过胫骨。 此外,本发明的胫骨截面器包括伸缩杆和与头部相邻的长度调节机构,用于提供用于定位头部的小高度调节。 长度调节构件包括放大的拇指轮以便于操作。 钉扎平台连接到调节构件,使得其可以通过调节构件相对于引导头移动。 钉扎平台允许外科医生将仪器的上端固定到患者的腿部,防止在切除期间仪器的运动。 在钉扎之后,可以通过旋转调节构件来进一步调节头的高度。 该仪器还包括滑动脚踝调整以提供引导件与胫骨和股骨的适当对准。
    • 9. 发明授权
    • Microprocessor controlled digital detector
    • 微处理器控制数字检测器
    • US4258423A
    • 1981-03-24
    • US100685
    • 1979-12-05
    • Richard A. LaneDonald K. Fronek
    • Richard A. LaneDonald K. Fronek
    • G01R19/00G01R23/167H03K9/06G06F15/20
    • G01R23/167G01R19/0007
    • In the digital detector the center frequency and bandwidth of a digital fer is controlled by a microprocessor. Amplitude information for the original input signal may be preserved or a simple threshold of energy may be detected within a bandpass. The microprocessor scans a selected frequency spectrum by digitally changing the decoding data controlled by software. This detector in conjunction with a scanning algorithm permits data acquisition in addition to energy detection, data acquisition being the process of controlling an incoming signal within a bandpass by moving the center frequency and bandpass of the filter and generating a corresponding error signal as the feedback control signal.
    • 在数字检测器中,数字滤波器的中心频率和带宽由微处理器控制。 可以保留原始输入信号的幅度信息,或者可以在带通内检测到简单的能量阈值。 微处理器通过数字地改变由软件控制的解码数据来扫描选定的频谱。 该检测器与扫描算法相结合允许数据采集除了能量检测之外,数据采集是通过移动滤波器的中心频率和带通来控制带通内的输入信号的过程,并产生相应的误差信号作为反馈控制 信号。