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    • 3. 发明授权
    • Retransmission apparatus and method for high-speed data processing
    • 用于高速数据处理的重发设备和方法
    • US08036101B2
    • 2011-10-11
    • US11800947
    • 2007-05-08
    • Hye-Jeong KimDo-Young LeeHyun-Gu Lee
    • Hye-Jeong KimDo-Young LeeHyun-Gu Lee
    • G01R31/08G06F11/00G08C15/00H04J1/16H04J3/14H04L1/00H04L12/26H04J3/00H04J3/16H04L1/18G08C25/02
    • H04L1/1874H04L1/1607H04L1/1812H04L1/1829
    • A method for retransmitting high-speed packet data in a transmission apparatus of a mobile communication system that simultaneously performs Automatic Retransmission reQuest (ARQ) that retransmits an ARQ packet reconfigured by allocating a sequence number to data delivered from an upper layer, and Hybrid Automatic Retransmission reQuest (HARQ) that multiplexes a plurality of ARQ packets into one HARQ packet and performs repeated retransmission on the HARQ packet within a maximum retransmission limit value. A transmitting HARQ entity checks a missing ARQ packet and sends a Negative Acknowledgement (NACK) for the missing ARQ packet to a transmitting ARQ entity. The transmitting ARQ entity receives an Acknowledged (ACK) for ARQ packets from a receiving ARQ entity, detects at least one missing ARQ packet according to the NACK and the ACK, configures a retransmission packet with the detected ARQ packet, and retransmits the retransmission packet.
    • 一种用于在移动通信系统的发送装置中重发高速分组数据的方法,该移动通信系统同时执行自动重传请求(ARQ),其通过向从上层发送的数据分配序列号而重新配置ARQ分组,以及混合自动重传 请求(HARQ),其将多个ARQ分组复用为一个HARQ分组,并且在最大重传限制值内对HARQ分组执行重复重传。 发送HARQ实体检查丢失的ARQ分组,并向发送的ARQ实体发送用于丢失的ARQ分组的否定确认(NACK)。 发送ARQ实体接收来自接收ARQ实体的ARQ报文的确认(ACK),根据NACK和ACK检测至少一个丢失的ARQ报文,配置检测到ARQ报文的重传报文,并重新发送重传报文。
    • 5. 发明授权
    • System and method for compensating timing error using pilot symbol in OFDM/CDMA communication system
    • 在OFDM / CDMA通信系统中使用导频符号补偿定时误差的系统和方法
    • US07110387B1
    • 2006-09-19
    • US09677085
    • 2000-09-29
    • Hye-Jeong KimHyun-Kyu Lee
    • Hye-Jeong KimHyun-Kyu Lee
    • H04B7/208
    • H04L27/2662H04L5/0016H04L5/0048H04L27/2656H04L27/2657H04L27/2675
    • A timing error compensation system in an OFMD/CDMA communication system includes an analog-to-digital converter for converting an OFDM signal, comprised of a data symbol stream in which a pilot symbol is inserted at intervals of a prescribed number of data symbols, received from a transmitter, to a digital OFDM symbol stream by prescribed sampling synchronization, a guard interval remover for removing a guard interval inserted in the OFDM symbol by prescribed frame synchronization, and a fast Fourier transform (FFT) device for performing fast Fourier transform on the guard interval-removed OFDM symbol and outputting a data symbol stream. In the time error compensation system, a pilot symbol detector receives the data symbol stream and detects the pilot symbols inserted in the data symbol stream at prescribed intervals. A timing compensator determines a linear phase difference line for the detected pilot symbol, generates a timing error estimation signal according to the determined linear phase difference line, and provides the timing error estimation signal to the analog-to-digital converter and the guard interval remover so as to determine the sampling synchronization and the frame synchronization.
    • OFMD / CDMA通信系统中的定时误差补偿系统包括:一个模数转换器,用于转换OFDM信号,该OFDM信号包括一个数据符号流,其中以接收的规定数量的数据符号的间隔插入导频符号 通过规定的采样同步从发射机到数字OFDM符号流;保护间隔去除器,用于通过规定的帧同步去除插入在OFDM符号中的保护间隔;以及快速傅里叶变换(FFT)装置,用于对 保护间隔去除的OFDM符号并输出数据符号流。 在时间误差补偿系统中,导频符号检测器接收数据符号流,并以规定的间隔检测插入在数据符号流中的导频符号。 定时补偿器确定检测到的导频符号的线性相位差线,根据确定的线性相位差线产生定时误差估计信号,并将定时误差估计信号提供给模数转换器和保护间隔去除器 以便确定采样同步和帧同步。
    • 9. 发明授权
    • Apparatus and method for inter-rat measurement in a multi mode terminal station
    • 多模终端站内大鼠测量的装置及方法
    • US09357414B2
    • 2016-05-31
    • US12653250
    • 2009-12-10
    • Hye-Jeong Kim
    • Hye-Jeong Kim
    • H01Q11/12H04B1/04H04M1/00H04B1/38G08C17/00H04W4/00H04L7/00H04W24/10
    • H04W24/10H04B1/005H04W88/06
    • A mobile terminal includes an apparatus configured to perform a method for inter-Radio Access Technology (RAT) measurement. When a measurement condition is satisfied, the apparatus turns on, at an operating module, a standby module and generates a time latch signal to the standby module at a time T0. The apparatus also latches, at the standby module, a time according to the time latch signal and reports the latched time value to the operating module. At the operating module, a measurement request message is sent. The measurement request message includes measurement parameter information and offset information between the time T0 and antenna switching times T2 and T5 to the standby module. The apparatus sets, at the standby module, a time interrupt using the information of the measurement message and performing inter-RAT measurement according to the time interrupt.
    • 移动终端包括被配置为执行无线接入技术(RAT)测量的方法的装置。 当满足测量条件时,设备在操作模块处接通待机模块,并在时间T0产生到待机模块的时间锁存信号。 该装置还在待机模块处锁存根据时间锁存信号的时间,并将锁存的时间值报告给操作模块。 在操作模块,发送测量请求消息。 测量请求消息包括时间T0与天线切换时间T2和T5之间的待机模块的测量参数信息和偏移信息。 该装置在待机模块处设置使用测量消息的信息的时间中断,并根据时间中断执行RAT间测量。
    • 10. 发明授权
    • Apparatus and method for controlling slotted mode of several systems using one sleep controller in a hybrid terminal of a mobile communication system
    • 用于在移动通信系统的混合终端中使用一个睡眠控制器来控制若干系统的时隙模式的装置和方法
    • US07925908B2
    • 2011-04-12
    • US11764631
    • 2007-06-18
    • Hye-Jeong Kim
    • Hye-Jeong Kim
    • G06F1/26G06F1/32
    • H04W52/0274H04W52/287H04W88/06Y02D70/1224Y02D70/1242
    • A method for controlling a slotted mode of several systems using one sleep controller enhanced a hybrid sleep controller that performs sleep/wake-up interface of system protocol stacks (PSs) in a hybrid terminal including at least two system PSs used for different communication networks of a mobile communication system. The method includes determining whether there is a shared hardware-waiting system according to a sleep request from a system PS; if there is no shared hardware-waiting system, turning off a clock of the sleep controller and power of shared hardware to enable operation in a real sleep mode; and if there is a shared hardware-waiting system, sending an active command to a corresponding system and simultaneously driving a sleep timer until a time that other systems wake up, to enable operation in a virtual sleep mode.
    • 一种用于使用一个睡眠控制器来控制若干系统的时隙模式的方法增强了混合式睡眠控制器,其在混合终端中执行系统协议栈(PS)的睡眠/唤醒接口,所述混合式终端包括用于不同通信网络的至少两个系统PS 移动通信系统。 该方法包括根据来自系统PS的睡眠请求确定是否存在共享硬件等待系统; 如果没有共享的硬件等待系统,则关闭睡眠控制器的时钟和共享硬件的电源,以实现在真实睡眠模式下的操作; 并且如果存在共享硬件等待系统,则向相应系统发送活动命令,同时驱动睡眠定时器直到其他系统唤醒为止,以使得能够在虚拟睡眠模式下运行。