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    • 1. 发明申请
    • Quasi-orthogonal allocation of codes in TD-CDMA systems
    • 在TD-CDMA系统中准正交分配码
    • US20070097855A1
    • 2007-05-03
    • US11365218
    • 2006-02-28
    • Sharad SambhwaniKee-Bong SongJuan Montojo
    • Sharad SambhwaniKee-Bong SongJuan Montojo
    • H04J11/00
    • H04J13/18H01Q3/26H04B1/7097H04B1/71055H04B1/71072H04B7/08H04J13/0048H04J13/0074
    • Systems and methodologies are described that facilitate increasing throughput in a time-division duplexed CDMA wireless communication environment. A set of orthogonal Walsh code sequences can be assigned to a first group of users in a network sector, and a duplicate set of orthogonal Walsh code sequences can be assigned to at least a second group of users in the sector. A number of receive antennas equal or greater than to the number of duplicate code sets being assigned can be deployed to linearly scale sector capacity to meet user demand. Additionally, user devices employing duplicate Walsh code sequence assignments at a base station serving the sector can be distinguished from each other, and timing offsets between such users can be enforced to mitigate any jamming effect at the base station receiver. Still furthermore, user device channel requirements in the sector can be continuously evaluated and an appropriate number of antennas can be dynamically deployed to provide scalable service to all such user devices.
    • 描述了在时分双工CDMA无线通信环境中促进增加吞吐量的系统和方法。 可以将一组正交沃尔什码序列分配给网络扇区中的第一组用户,并且可以向扇区中的至少第二组用户分配一组正交沃尔什码序列。 等于或大于分配的重复码集的数量的多个接收天线可以部署成线性地缩放扇区容量以满足用户需求。 此外,可以在服务于扇区的基站处采用重复的沃尔什码序列分配的用户设备彼此区分,并且可以实施这些用户之间的定时偏移以减轻基站接收机处的任何干扰效应。 此外,可以连续地评估扇区中的用户设备信道要求,并且可以动态地部署适当数量的天线,以向所有这样的用户设备提供可伸缩服务。
    • 4. 发明授权
    • Quasi-orthogonal allocation of codes in TD-CDMA systems
    • 在TD-CDMA系统中准正交分配码
    • US08130727B2
    • 2012-03-06
    • US11365218
    • 2006-02-28
    • Sharad Deepak SambhwaniKee-Bong SongJuan Montojo
    • Sharad Deepak SambhwaniKee-Bong SongJuan Montojo
    • H04B7/216H04L12/56
    • H04J13/18H01Q3/26H04B1/7097H04B1/71055H04B1/71072H04B7/08H04J13/0048H04J13/0074
    • Systems and methodologies are described that facilitate increasing throughput in a time-division duplexed CDMA wireless communication environment. A set of orthogonal Walsh code sequences can be assigned to a first group of users in a network sector, and a duplicate set of orthogonal Walsh code sequences can be assigned to at least a second group of users in the sector. A number of receive antennas equal or greater than to the number of duplicate code sets being assigned can be deployed to linearly scale sector capacity to meet user demand. Additionally, user devices employing duplicate Walsh code sequence assignments at a base station serving the sector can be distinguished from each other, and timing offsets between such users can be enforced to mitigate any jamming effect at the base station receiver. Still furthermore, user device channel requirements in the sector can be continuously evaluated and an appropriate number of antennas can be dynamically deployed to provide scalable service to all such user devices.
    • 描述了在时分双工CDMA无线通信环境中促进增加吞吐量的系统和方法。 可以将一组正交沃尔什码序列分配给网络扇区中的第一组用户,并且可以向扇区中的至少第二组用户分配一组正交沃尔什码序列。 等于或大于分配的重复码集的数量的多个接收天线可以部署成线性地缩放扇区容量以满足用户需求。 此外,可以在服务于扇区的基站处采用重复的沃尔什码序列分配的用户设备彼此区分,并且可以实施这些用户之间的定时偏移以减轻基站接收机处的任何干扰效应。 此外,可以连续地评估扇区中的用户设备信道要求,并且可以动态地部署适当数量的天线,以向所有这样的用户设备提供可伸缩服务。
    • 6. 发明授权
    • Idle mode receive antenna diversity system
    • 空闲模式接收天线分集系统
    • US08793000B2
    • 2014-07-29
    • US13099081
    • 2011-05-02
    • Syed A. MujtabaYoungjae KimBharath Narasimha RaoKee-Bong SongXiaowen Wang
    • Syed A. MujtabaYoungjae KimBharath Narasimha RaoKee-Bong SongXiaowen Wang
    • G05B15/00
    • H04M1/72519H01Q1/243H01Q21/28H04W68/00
    • Electronic devices may be provided that contain wireless communications circuitry. The wireless communications circuitry may include radio-frequency transceiver circuitry coupled to multiple antennas. An electronic device may alternate between a sleep mode and a wake mode. During wake mode, the electronic device may monitor a paging channel in a wireless network for incoming paging signals. The device may use either a single antenna mode or a multiple antenna mode such as a dual antenna mode in monitoring the paging channel. In the single antenna mode, a single active antenna is used to receive paging signals. In the dual antenna mode two antennas are simultaneously used to receive paging signals. The device may choose which antenna mode to use based on signal quality measurements and history information on successfully received paging signals.
    • 可以提供包含无线通信电路的电子设备。 无线通信电路可以包括耦合到多个天线的射频收发器电路。 电子设备可以在睡眠模式和唤醒模式之间交替。 在唤醒模式期间,电子设备可以监视无线网络中的呼入寻呼信号的寻呼信道。 该设备可以使用单天线模式或多天线模式,例如双天线模式来监视寻呼信道。 在单天线模式中,单个有源天线用于接收寻呼信号。 在双天线模式中,两个天线同时用于接收寻呼信号。 设备可以基于信号质量测量和成功接收的寻呼信号的历史信息来选择要使用的天线模式。
    • 9. 发明申请
    • ELECTRONIC DEVICE WITH IDLE MODE ANTENNA SWITCHING
    • 具有空闲模式天线开关的电子设备
    • US20120282982A1
    • 2012-11-08
    • US13098947
    • 2011-05-02
    • Syed A. MujtabaKee-Bong SongYoungjae Kim
    • Syed A. MujtabaKee-Bong SongYoungjae Kim
    • H04W88/02G01R29/08
    • H04B7/0814H04W52/0245Y02D70/1242Y02D70/1262Y02D70/142Y02D70/144Y02D70/146Y02D70/164Y02D70/23Y02D70/26Y02D70/444
    • Electronic devices may be provided that contain wireless communication circuitry. The wireless communication circuitry may include radio-frequency transceiver circuitry coupled to multiple antennas. An electronic device may alternate between a sleep mode and a wake mode. During wake mode, the electronic device may monitor a paging channel in a wireless network for incoming paging signals. The device may use a selected one of the multiple antennas in monitoring the paging channel. If received signal quality is satisfactory, the device may maintain use of the selected one of the multiple antennas for subsequent wake period monitoring of the paging channel. If received signal quality falls below a threshold or is otherwise indicated to not be satisfactory, the device may switch to use of a different one of the multiple antennas in monitoring the paging channel. Other criteria may also be used in controlling the switching between antennas for paging channel monitoring.
    • 可以提供包含无线通信电路的电子设备。 无线通信电路可以包括耦合到多个天线的射频收发器电路。 电子设备可以在睡眠模式和唤醒模式之间交替。 在唤醒模式期间,电子设备可以监视无线网络中的呼入寻呼信号的寻呼信道。 该设备可以使用多个天线中所选择的一个来监视寻呼信道。 如果接收到的信号质量令人满意,则设备可以保持对多个天线中所选择的一个天线的使用以用于寻呼信道的随后的唤醒周期监视。 如果接收到的信号质量低于阈值或被指示为不令人满意,则在监视寻呼信道时,设备可以切换到使用多个天线中的不同的天线。 其他标准也可以用于控制用于寻呼信道监测的天线之间的切换。