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    • 4. 发明授权
    • Packet detector
    • 包检测器
    • US08718118B2
    • 2014-05-06
    • US13376400
    • 2010-07-22
    • Marcos TzannesJoon Bae KimStuart Sandberg
    • Marcos TzannesJoon Bae KimStuart Sandberg
    • H04B1/00
    • H04L27/2602H04L5/0044H04L7/042H04L25/03866H04L27/2613H04L27/2614H04L27/2647H04L27/3472H04L69/22
    • There are several exemplary ways to more efficiently communicate an out-of-domain seed to a receiver—in a first technique, the seed can be indicated in the header portion or data portion of a packet. For example, the header portion of the packet could contain one or more bit fields that indicate the value of the LFSR seed used for the preamble portion of the packet. The receiver would learn the out-of-domain seed after receiving a first out-of-domain packet and decoding the header portion of that packet. After learning the out-of-domain seed, the receiver could send a packet indicating the value of the out-of-domain seed to the local master. The local master could then transmit the value of the out-of-domain seed in the header portion or data portion of a local MAP frame.
    • 在第一技术中,有几种用于更有效地将域外种子传送到接收器的示例性方式,可以在分组的报头部分或数据部分中指示种子。 例如,分组的报头部分可以包含指示用于分组的前导码部分的LFSR种子的值的一个或多个比特字段。 接收器将在接收到第一个域外分组并解码该分组的报头部分之后学习域外种子。 在学习域外种子后,接收方可以向本地主机发送一个指示域外种子值的数据包。 然后,本地主机可以将局域外种子的值发送到本地MAP帧的报头部分或数据部分。
    • 5. 发明授权
    • Top emission type organic electroluminescent display device and method of fabricating the same
    • 顶部发射型有机电致发光显示装置及其制造方法
    • US08587194B2
    • 2013-11-19
    • US12581820
    • 2009-10-19
    • Jae-Yoon LeeSung-Joon Bae
    • Jae-Yoon LeeSung-Joon Bae
    • H01J1/62H01J9/20H05B33/00
    • H01L27/12H01L27/124H01L27/3276H01L51/525
    • An organic electroluminescent display (OELD) device includes a first substrate having a first unit pixel region including first and second pixel regions; first and second gate lines along a first direction; first and second data lines along a second direction; a switching TFT in the first pixel region; a driving TFT in the first pixel region; a passivation layer including a first contact hole exposing a portion of the driving TFT; a first electrode contacting the driving TFT through the first contact hole; a bank surrounding the second pixel region an organic emitting layer in the second pixel region; and a transparent second electrode on the organic emitting layer and the bank, wherein the second pixel region is a region shifted from the first pixel region such that the second gate line goes across the second pixel region.
    • 有机电致发光显示器(OELD)器件包括具有包括第一和第二像素区域的第一单位像素区域的第一衬底; 沿着第一方向的第一和第二栅极线; 第一和第二数据线沿着第二方向; 第一像素区域中的开关TFT; 在第一像素区域中的驱动TFT; 钝化层,包括暴露驱动TFT的一部分的第一接触孔; 通过所述第一接触孔与所述驱动TFT接触的第一电极; 围绕所述第二像素区域的所述第二像素区域中的有机发光层的堤; 以及在所述有机发光层和所述堤上的透明第二电极,其中所述第二像素区域是从所述第一像素区域偏移的区域,使得所述第二栅极线穿过所述第二像素区域。
    • 9. 发明申请
    • ANTI-FOG HEAT GENERATING GLASS SYSTEM AND METHOD FOR CONTROLLING THE SAME
    • 防雾发热玻璃系统及其控制方法
    • US20120170120A1
    • 2012-07-05
    • US13393842
    • 2010-12-23
    • Dong-Il LeeBeom-Goo SonIl - Joon Bae
    • Dong-Il LeeBeom-Goo SonIl - Joon Bae
    • G02B5/00
    • H05B3/84Y02B30/26
    • An anti-fog heat-generating glass system, comprising: a heat-generating glass unit separating an indoor and outdoor area, including general glass and heat-generating glass; a glass surface temperature-sensing unit arranged on indoor side heat-generating glass for sensing glass surface temperature; a control unit which compares the glass surface temperature and a fogging point of the indoor area to control heat-generation of the heat-generating glass unit; and a power-source unit supplying power to the heat-generating glass system to operate the system. A method for controlling the anti-fog heat-generating glass system comprises: simultaneously sensing the temperature and relative humidity of the indoor area and the temperature of the heat-generating glass surface; calculating a fogging point based on the temperature and relative humidity of the indoor area; comparing the temperatures of the heat-generating glass surface and the fogging point; and returning to the sensing step or heating the heat-generating glass, based on the comparing step.
    • 一种防雾发热玻璃系统,包括:将室内和室外区域分开的发热玻璃单元,包括普通玻璃和发热玻璃; 布置在用于感测玻璃表面温度的室内发热玻璃上的玻璃表面温度感测单元; 控制单元,其比较所述玻璃表面温度和所述室内区域的起雾点,以控制所述发热玻璃单元的发热; 以及向发热玻璃系统供电以操作系统的电源单元。 防雾发热玻璃系统的控制方法包括:同时感测室内的温度和相对湿度以及发热玻璃表面的温度; 根据室内温度和相对湿度计算雾点; 比较发热玻璃表面和起雾点的温度; 并且基于比较步骤返回到感测步骤或加热发热玻璃。
    • 10. 发明申请
    • CHANNEL ADAPTATION FOR MULTICARRIER ARRANGEMENT
    • 多频道设备的通道适配
    • US20110182254A1
    • 2011-07-28
    • US12981997
    • 2010-12-30
    • Joon Bae KIMPatrick KELLIHER
    • Joon Bae KIMPatrick KELLIHER
    • H04W72/04
    • H04L5/0046H04L5/0007H04L5/0053H04L5/0055H04M11/06
    • Implementations related to updating channel adaptation parameters are described. In one implementation, an R2T frame, such as an acknowledgment (ACK) frame, is modified to carry a partial bit allocation table (BAT). The R2T frame may be received by a transceiver apparatus and the partial BAT carried in the header or extended header(s) of R2T frame may be used to update a BAT stored in the transceiver. In another implementation, a message frame is modified to carry a partial BAT. The message frame may be received by a transceiver apparatus and the partial BAT used to update a BAT stored in the transceiver. A unique identification number generated by the receiving transceiver apparatus may be used to synchronize BATs stored in two communicating transceivers without necessity of exchanging additional control messages.
    • 描述与更新信道自适应参数相关的实现。 在一个实现中,诸如确认(ACK)帧的R2T帧被修改为携带部分位分配表(BAT)。 R2T帧可以由收发器装置接收,并且在R2T帧的报头或扩展报头中携带的部分BAT可以用于更新存储在收发器中的BAT。 在另一实现中,消息帧被修改为携带部分BAT。 消息帧可以由收发器装置和用于更新存储在收发器中的BAT的部分BAT接收。 由接收收发器装置生成的唯一标识号码可用于同步存储在两个通信收发器中的BAT,而不需要交换额外的控制消息。