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    • 1. 再颁专利
    • Method for adaptively allocating resources in communication system
    • 通信系统中自适应分配资源的方法
    • USRE44352E1
    • 2013-07-09
    • US12783639
    • 2010-05-20
    • Yong Hoon LeeInhyoung Kim
    • Yong Hoon LeeInhyoung Kim
    • H04L27/28
    • H04L27/2608H04L1/0003H04L1/0026
    • A method for adaptively allocating resource can be simply implemented for reducing degradation of performance by effectively separating operations of sub-channel and time slot allocation and selection of modulation method and sequentially processing each of operations. A method for adaptively allocating resource in a communication system to sequentially process sub-carrier/time slot allocation and modulation method selection efficiently includes the step of a) computing average channel gains of sub-carriers/time slots for each user by using channel gains of sub-carriers/time slots for each user; b) computing average numbers of bits for each user by using required data rates and average channel gains of sub-carriers/time slots for each user; c) computing the number of sub-carriers/time slots allocated to each user and allocating the sub-carriers/time slots to each user; and d) selecting a modulation method with respect to each sub-carrier/time slot.
    • 可以简单地实现用于自适应地分配资源的方法,以通过有效地分离子信道和时隙分配的操作以及调制方法的选择并顺序地处理每个操作来降低性能的降级。 一种用于在通信系统中自适应地分配资源以顺序地处理子载波/时隙分配和调制方法选择的方法包括以下步骤:a)通过使用信道增益来计算每个用户的子载波/时隙的平均信道增益 每个用户的子载波/时隙; b)通过使用每个用户的所需数据速率和子载波/时隙的平均信道增益来计算每个用户的平均比特数; c)计算分配给每个用户的子载波/时隙的数量,并向每个用户分配子载波/时隙; 以及d)选择关于每个子载波/时隙的调制方法。
    • 2. 发明授权
    • Method for adaptively allocating resources in communication system
    • 通信系统中自适应分配资源的方法
    • US07376193B2
    • 2008-05-20
    • US10650152
    • 2003-08-27
    • Yong Hoon LeeInhyoung Kim
    • Yong Hoon LeeInhyoung Kim
    • H04L27/28
    • H04L27/2608H04L1/0003H04L1/0026
    • A method for adaptively allocating resource can be simply implemented for reducing degradation of performance by effectively separating operations of sub-channel and time slot allocation and selection of modulation method and sequentially processing each of operations. A method for adaptively allocating resource in a communication system to sequentially process sub-carrier/time slot allocation and modulation method selection efficiently includes the step of a) computing average channel gains of sub-carriers/time slots for each user by using channel gains of sub-carriers/time slots for each user; b) computing average numbers of bits for each user by using required data rates and average channel gains of sub-carriers/time slots for each user; c) computing the number of sub-carriers/time slots allocated to each user and allocating the sub-carriers/time slots to each user; and d) selecting a modulation method with respect to each sub-carrier/time slot.
    • 可以简单地实现用于自适应地分配资源的方法,以通过有效地分离子信道和时隙分配的操作以及调制方法的选择并顺序地处理每个操作来降低性能的降级。 一种用于在通信系统中自适应地分配资源以顺序地处理子载波/时隙分配和调制方法选择的方法包括以下步骤:a)通过使用信道增益来计算每个用户的子载波/时隙的平均信道增益 每个用户的子载波/时隙; b)通过使用每个用户的所需数据速率和子载波/时隙的平均信道增益来计算每个用户的平均比特数; c)计算分配给每个用户的子载波/时隙的数量,并向每个用户分配子载波/时隙; 以及d)选择关于每个子载波/时隙的调制方法。
    • 5. 发明授权
    • Interface device for optical recording and/or reproducing apparatus
    • 用于光学记录和/或再现装置的接口装置
    • US07564749B2
    • 2009-07-21
    • US11297366
    • 2005-12-09
    • Jak Heun YangYong Hoon Lee
    • Jak Heun YangYong Hoon Lee
    • G11B7/00
    • G11B7/1275G11B7/123G11B7/1263G11B2007/0006
    • An interface device for an optical recording and/or reproducing apparatus for recording and playback of an optical disc, wherein the configuration of an interface circuit between a pickup that reads and writes information from/on the optical disc and a radio frequency (RF) integrated circuit (IC) for signal processing is simplified. To this end, the interface device includes a pickup, an integrated circuit, and a multiplexer. The pickup drives a plurality of laser diodes generating laser signals to record and/or reproduce information on a plurality of discs, respectively, and receives the laser signals reflected from the discs and output photodiode (PD) signals corresponding respectively to the received laser signals. The integrated circuit controls outputs of the laser diodes, and processes the PD signals from the pickup. The multiplexer is disposed in the pickup, and selects a PD signal corresponding to a particular one of the discs from among the PD signals from the pickup and interface the selected particular PD signal to the integrated circuit.
    • 一种用于记录和重放光盘的光学记录和/或再现装置的接口装置,其中在从光盘读取/写入信息的拾取器和集成的射频(RF)之间的接口电路的配置 用于信号处理的电路(IC)被简化。 为此,接口装置包括拾取器,集成电路和多路复用器。 拾取器驱动多个产生激光信号的激光二极管,分别在多个盘上记录和/或再现信息,并且接收从盘反射的激光信号和分别对应于所接收的激光信号的输出光电二极管(PD)信号。 集成电路控制激光二极管的输出,并处理来自拾取器的PD信号。 复用器设置在拾取器中,并且从拾取器的PD信号中选择对应于特定盘片的PD信号,并将所选择的特定PD信号接入集成电路。
    • 8. 发明授权
    • Method of fabricating capacitive touch-screen panel
    • 制造电容式触摸屏面板的方法
    • US09360969B2
    • 2016-06-07
    • US12747393
    • 2009-09-25
    • Yong Hoon Lee
    • Yong Hoon Lee
    • H05K3/02G06F3/044
    • G06F3/044G06F2203/04103Y10T29/49155
    • Provided is a method of fabricating a capacitive touch-screen panel. The method includes preparing first and second substrates having first lateral surfaces on which first and second transparent conductive layers for forming first and second transparent electrode pattern units are disposed. Each of the first and second substrates has a screen region and an inactive region. Second lateral surfaces of the first and second substrates are bonded to each other by an interlayer adhesive. First and second metal layers for forming first and second outer electrode interconnections are disposed on exposed surfaces of the first and second transparent conductive layers, respectively. Double-side exposure and etching processes are performed to form the first transparent electrode pattern unit and the first outer electrode interconnection on the screen region and the inactive region of the first lateral surface of the first substrate, respectively, and simultaneously, form the second transparent electrode pattern unit and the second outer electrode interconnection on the screen region and the inactive region of the first lateral surface of the second substrate, respectively. The first and second outer electrode interconnections are electrically connected to the first and second transparent electrode pattern units, respectively. The method can efficiently reduce the fabrication cost of a touch screen and greatly simplify the fabrication process of the touch-screen panel.
    • 提供一种制造电容式触摸屏面板的方法。 该方法包括制备具有第一侧表面的第一和第二基底,其上设置用于形成第一和第二透明电极图案单元的第一和第二透明导电层。 第一和第二基板中的每一个具有屏幕区域和非活动区域。 第一和第二基板的第二侧表面通过层间粘合剂彼此粘合。 用于形成第一和第二外部电极互连的第一和第二金属层分别设置在第一和第二透明导电层的暴露表面上。 执行双面曝光和蚀刻处理,以分别在第一基板的屏幕区域和第一侧表面的非活动区域上分别形成第一透明电极图案单元和第一外部电极互连,并且同时形成第二透明电极图案单元 电极图案单元和第二外部电极互连,分别在第二基板的第一侧面的屏幕区域和非活动区域上。 第一和第二外部电极互连分别电连接到第一和第二透明电极图案单元。 该方法可以有效地降低触摸屏的制造成本,并且大大简化了触摸屏面板的制造过程。