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    • 43. 发明授权
    • Framing for an adaptive modulation communication system
    • 自适应调制通信系统的帧
    • US08165046B2
    • 2012-04-24
    • US12035549
    • 2008-02-22
    • Kenneth L. StanwoodIsrael Jay KleinGeorge LinAn Chen
    • Kenneth L. StanwoodIsrael Jay KleinGeorge LinAn Chen
    • H04J3/00
    • H04W72/042H04B7/15557H04B7/212H04B7/2615H04B7/2656H04B7/2681H04L1/0003H04L1/0009H04L5/16H04W56/0085H04W72/14
    • A system and method for mapping a combined frequency division duplexing (FDD) Time Division Multiplexing (TDM)/Time Division Multiple Access (TDMA) downlink subframe for use with half-duplex and full-duplex terminals in a communication system. Embodiments of the downlink subframe vary Forward Error Correction (FEC) types for a given modulation scheme as well as support the implementation of a smart antennae at a base station in the communication system. Embodiments of the system are also used in a TDD communication system to support the implementation of smart antennae. A scheduling algorithm allows TDM and TDMA portions of a downlink to efficiently co-exist in the same downlink subframe and simultaneously support full and half-duplex terminals. The algorithm further allows the TDM of multiple terminals in a TDMA burst to minimize the number of map entries in a downlink map. The algorithm limits the number of downlink map entries to not exceed 2n+1, where n is the number of DL PHY modes (modulation/FEC combinations) employed by the communication system.
    • 用于映射在通信系统中与半双工和全双工终端一起使用的组合频分双工(FDD)时分复用(TDM)/时分多址(TDMA))下行链路子帧的系统和方法。 下行链路子帧的实施例针对给定的调制方案改变前向纠错(FEC)类型,并且支持在通信系统中的基站处的智能天线的实现。 该系统的实施例也用于TDD通信系统以支持智能天线的实现。 调度算法允许下行链路的TDM和TDMA部分在相同的下行链路子帧中有效共存,同时支持全双工和半双工终端。 该算法还允许TDMA突发中的多个终端的TDM使下行链路映射中的映射条目的数量最小化。 该算法将下行链路映射条目的数量限制为不超过2n + 1,其中n是通信系统采用的DL PHY模式(调制/ FEC组合)的数量。
    • 46. 发明授权
    • Framing for an adaptive modulation communication system
    • 自适应调制通信系统的帧
    • US07379441B2
    • 2008-05-27
    • US11674548
    • 2007-02-13
    • Kenneth L. StanwoodIsrael Jay KleinGeorge LinAn Chen
    • Kenneth L. StanwoodIsrael Jay KleinGeorge LinAn Chen
    • H04B7/212
    • H04W72/042H04B7/15557H04B7/212H04B7/2615H04B7/2656H04B7/2681H04L1/0003H04L1/0009H04L5/16H04W56/0085H04W72/14
    • A system and method for mapping a combined frequency division duplexing (FDD) Time Division Multiplexing (TDM)/Time Division Multiple Access (TDMA) downlink subframe for use with half-duplex and full-duplex terminals in a communication system. Embodiments of the downlink subframe vary Forward Error Correction (FEC) types for a given modulation scheme as well as support the implementation of a smart antennae at a base station in the communication system. Embodiments of the system are also used in a TDD communication system to support the implementation of smart antennae. A scheduling algorithm allows TDM and TDMA portions of a downlink to efficiently co-exist in the same downlink subframe and simultaneously support full and half-duplex terminals. The algorithm further allows the TDM of multiple terminals in a TDMA burst to minimize the number of map entries in a downlink map. The algorithm limits the number of downlink map entries to not exceed 2n+1, where n is the number of DL PHY modes (modulation/FEC combinations) employed by the communication system.
    • 用于映射在通信系统中与半双工和全双工终端一起使用的组合频分双工(FDD)时分复用(TDM)/时分多址(TDMA))下行链路子帧的系统和方法。 下行链路子帧的实施例针对给定的调制方案改变前向纠错(FEC)类型,并且支持在通信系统中的基站处的智能天线的实现。 该系统的实施例也用于TDD通信系统以支持智能天线的实现。 调度算法允许下行链路的TDM和TDMA部分在相同的下行链路子帧中有效共存,同时支持全双工和半双工终端。 该算法还允许TDMA突发中的多个终端的TDM使下行链路映射中的映射条目的数量最小化。 该算法将下行链路映射条目的数量限制为不超过2n + 1,其中n是通信系统采用的DL PHY模式(调制/ FEC组合)的数量。
    • 47. 发明授权
    • Framing for an adaptive modulation communication system
    • 自适应调制通信系统的帧
    • US07197022B2
    • 2007-03-27
    • US09991532
    • 2001-11-15
    • Kenneth L. StanwoodIsrael Jay KleinGeorge LinAn Chen
    • Kenneth L. StanwoodIsrael Jay KleinGeorge LinAn Chen
    • H04B7/212
    • H04W72/042H04B7/15557H04B7/212H04B7/2615H04B7/2656H04B7/2681H04L1/0003H04L1/0009H04L5/16H04W56/0085H04W72/14
    • A system and method for mapping a combined frequency division duplexing (FDD) Time Division Multiplexing (TDM)/Time Division Multiple Access (TDMA) downlink subframe for use with half-duplex and full-duplex terminals in a communication system. Embodiments of the downlink subframe vary Forward Error Correction (FEC) types for a given modulation scheme as well as support the implementation of a smart antennae at a base station in the communication system. Embodiments of the system are also used in a TDD communication system to support the implementation of smart antennae. A scheduling algorithm allows TDM and TDMA portions of a downlink to efficiently co-exist in the same downlink subframe and simultaneously support full and half-duplex terminals. The algorithm further allows the TDM of multiple terminals in a TDMA burst to minimize the number of map entries in a downlink map. The algorithm limits the number of downlink map entries to not exceed 2n+1, where n is the number of DL PHY modes (modulation/FEC combinations) employed by the communication system.
    • 用于映射在通信系统中与半双工和全双工终端一起使用的组合频分双工(FDD)时分多路复用(TDM)/时分多址(TDMA))下行链路子帧的系统和方法。 下行链路子帧的实施例针对给定的调制方案改变前向纠错(FEC)类型,并且支持在通信系统中的基站处的智能天线的实现。 该系统的实施例也用于TDD通信系统以支持智能天线的实现。 调度算法允许下行链路的TDM和TDMA部分在相同的下行链路子帧中有效共存,同时支持全双工和半双工终端。 该算法还允许TDMA突发中的多个终端的TDM使下行链路映射中的映射条目的数量最小化。 该算法将下行链路映射条目的数量限制为不超过2n + 1,其中n是通信系统采用的DL PHY模式(调制/ FEC组合)的数量。