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    • 2. 发明授权
    • Device coexistence within single user, multiple user, multiple access, and/or MIMO wireless communications
    • 单用户,多用户,多路访问和/或MIMO无线通信中的设备共存
    • US08774124B2
    • 2014-07-08
    • US13454033
    • 2012-04-23
    • Ron PoratNihar JindalMatthew James Fischer
    • Ron PoratNihar JindalMatthew James Fischer
    • H04W4/00
    • H04L27/2618H04L27/2602H04L27/2613H04L27/2666H04W52/18H04W72/1231H04W84/12
    • Device coexistence within single user, multiple user, multiple access, and/or MIMO wireless communications. Different respective communication devices operating using different respective communication channels having different respective channel bandwidths may be implemented within a given communication system. For example, different respective communication devices may belong to different basic services sets (BSSs) (e.g., a 1 MHz BSS operating using channel bandwidths of 1 MHz, and a 2 MHz BSS operating using channel bandwidths of 2 MHz). To effectuate coexistence among different respective devices operating using different respective channel bandwidths, devices but longing to the 1 MHz BSS monitor for and listen for 2 MHz wide communication activity, and those 1 MHz BSS communication devices defer to any detected communication activity on any portion of the 2 MHz channel.
    • 单用户,多用户,多路访问和/或MIMO无线通信中的设备共存。 可以在给定的通信系统内实现使用具有不同相应信道带宽的不同相应通信信道工作的不同的各个通信设备。 例如,不同的各个通信设备可以属于不同的基本服务集(BSS)(例如,使用1MHz的信道带宽操作的1MHz BSS,以及使用2MHz的信道带宽操作的2MHz BSS)。 为了实现使用不同的相应信道带宽工作的不同的各个设备之间的共存,但是期望到1MHz BSS监视器并且监听2MHz宽的通信活动,并且那些1MHz BSS通信设备延迟任何检测到的任何部分的通信活动 2 MHz信道。
    • 3. 发明申请
    • Differential feedback within single user, multiple user, multiple access, and/or MIMO wireless communications
    • 单用户,多用户,多路访问和/或MIMO无线通信中的差分反馈
    • US20120087304A1
    • 2012-04-12
    • US13239582
    • 2011-09-22
    • Ron PoratMatthew James FischerEric J. Ojard
    • Ron PoratMatthew James FischerEric J. Ojard
    • H04W4/00
    • H04B7/0417H04B7/043H04B7/0456H04B7/0641H04B7/065H04B7/0658H04W88/02H04W88/08
    • Differential feedback within multiple user, multiple access, and/or MIMO wireless communications. After full feedback signal(s) have been received by a communication device (e.g., one that is to be performing beamforming for use in subsequent signal transmission), differential feedback signal(s) are received. Those differential feedback signal(s) are employed to update the full feedback signal(s) thereby generating updated/modified full feedback signals. Over time, such updated/modified full feedback signals may subsequently be further updated based upon later received inferential feedback signal(s). Such differential feedback signaling takes advantage of time and/or frequency correlation in a communication channel to provide for reduced feedback overhead by feeding back a difference or delta (Δ) relative to a previous value. For example, instead of providing full feedback signals in each respective/successive communication, feedback overhead is reduced by providing a difference or delta (Δ).
    • 多用户,多路访问和/或MIMO无线通信中的差分反馈。 在由通信设备(例如,正在执行波束成形以在随后的信号传输中使用)的全反馈信号之后,接收差分反馈信号。 这些差分反馈信号用于更新全反馈信号,从而产生更新/修改的全反馈信号。 随着时间的推移,随后可以基于稍后接收到的推理反馈信号来更新/修改的全反馈信号。 这种差分反馈信令利用通信信道中的时间和/或频率相关性来通过相对于先前值反馈差异或增量(&Dgr)来提供减少的反馈开销。 例如,代替在每个相应/连续的通信中提供全反馈信号,通过提供差值或增量(&Dgr)来减少反馈开销。
    • 6. 发明授权
    • Differential feedback within single user, multiple user, multiple access, and/or MIMO wireless communications
    • 单用户,多用户,多路访问和/或MIMO无线通信中的差分反馈
    • US09118364B2
    • 2015-08-25
    • US13239582
    • 2011-09-22
    • Ron PoratMatthew James FischerEric J. Ojard
    • Ron PoratMatthew James FischerEric J. Ojard
    • H04W4/00H04B7/04H04B7/06
    • H04B7/0417H04B7/043H04B7/0456H04B7/0641H04B7/065H04B7/0658H04W88/02H04W88/08
    • Differential feedback within multiple user, multiple access, and/or MIMO wireless communications. After full feedback signal(s) have been received by a communication device (e.g., one that is to be performing beamforming for use in subsequent signal transmission), differential feedback signal(s) are received. Those differential feedback signal(s) are employed to update the full feedback signal(s) thereby generating updated/modified full feedback signals. Over time, such updated/modified full feedback signals may subsequently be further updated based upon later received inferential feedback signal(s). Such differential feedback signaling takes advantage of time and/or frequency correlation in a communication channel to provide for reduced feedback overhead by feeding back a difference or delta (Δ) relative to a previous value. For example, instead of providing full feedback signals in each respective/successive communication, feedback overhead is reduced by providing a difference or delta (Δ).
    • 多用户,多路访问和/或MIMO无线通信中的差分反馈。 在由通信设备(例如,正在执行波束成形以在随后的信号传输中使用)的全反馈信号之后,接收差分反馈信号。 这些差分反馈信号用于更新全反馈信号,从而产生更新/修改的全反馈信号。 随着时间的推移,随后可以基于稍后接收到的推理反馈信号来更新/修改的全反馈信号。 这种差分反馈信令利用通信信道中的时间和/或频率相关性来通过相对于先前值反馈差异或增量(&Dgr)来提供减少的反馈开销。 例如,代替在每个相应/连续的通信中提供全反馈信号,通过提供差值或增量(&Dgr)来减少反馈开销。
    • 7. 发明授权
    • Downclocking and/or adaptive sub-carriers for single user, multiple user, multiple access, and/or MIMO wireless communications
    • 用于单用户,多用户,多路访问和/或MIMO无线通信的倒频和/或自适应子载波
    • US09048994B2
    • 2015-06-02
    • US13448312
    • 2012-04-16
    • Ron Porat
    • Ron Porat
    • H04W4/00H04L5/00
    • H04L5/0023H04L5/0044H04L5/0055H04L5/0066H04L5/0092H04L5/0098H04W72/005H04W84/12Y02D70/122Y02D70/124Y02D70/14
    • Downclocking and/or adaptive sub-carriers for single user, multiple user, multiple access, and/or MIMO wireless communications. Communication device operation within a wireless local area network (WLAN/WiFi) is effectuated in the frequency spectra typically associated with television broadcast channels. Operation is made on a secondary non-interfering basis to such television broadcast channels. Any desired channel bandwidth (e.g., 6 MHz, 7 MHz, 8 MHz, etc.) may be employed. Adaptation with respect to the number of data sub-carriers within different respective packets may be made in accordance with two or more respective operational modes. For example, modification of the number of data sub-carriers in different respective packets may be made to increase the signal bandwidth from a first band was to a second bandwidth. Also, appropriate frequency down-clocking of a first channel bandwidth may be performed to generate the desired channel bandwidth to be employed within an available television broadcast channel bandwidth.
    • 用于单用户,多用户,多路访问和/或MIMO无线通信的倒频和/或自适应子载波。 在无线局域网(WLAN / WiFi)中的通信设备操作在通常与电视广播频道相关联的频谱中实现。 对这种电视广播频道进行二次无干扰的操作。 可以采用任何期望的信道带宽(例如,6MHz,7MHz,8MHz等)。 可以根据两个或更多个相应的操作模式进行关于不同相应分组内的数据子载波数量的适配。 例如,可以对不同的各个分组中的数据子载波的数量进行修改,以将从第一频带的信号带宽增加到第二带宽。 此外,可以执行第一信道带宽的适当的频率下变频以产生要在可用电视广播信道带宽内采用的期望信道带宽。
    • 9. 发明授权
    • Intercell interference mitigation
    • 小区干扰减轻
    • US08626072B2
    • 2014-01-07
    • US13472040
    • 2012-05-15
    • Hari SankarRon PoratDanjie PanWee Peng GohSrikanth GummadiLei Wang
    • Hari SankarRon PoratDanjie PanWee Peng GohSrikanth GummadiLei Wang
    • H04B1/00
    • H04L5/0032H04L1/0026H04L5/0007H04L5/0037H04L5/0057H04L5/0062H04L5/0066H04L25/0204H04W72/0406H04W72/0453H04W72/048H04W72/082
    • Methods and apparatus are described for mitigating intercell interference in wireless communication systems utilizing substantially the same operating frequency band across multiple neighboring coverage areas. The operating frequency band may be shared across multiple neighboring or otherwise adjacent cells, such as in a frequency reuse one configuration. The wireless communication system can synchronize one or more resource allocation regions or zones across the multiple base stations, and can coordinate a permutation type within each resource allocation zone. The base stations can coordinate a pilot configuration in each of a plurality of coordinated resource allocation regions. Subscriber stations can be assigned resources in a coordinated resource allocation region based on interference levels. A subscriber station can determine a channel estimate for each of multiple base stations in the coordinated resource allocation region to mitigate interference.
    • 描述了用于减轻跨越多个相邻覆盖区域的基本上相同的工作频带的无线通信系统中的小区间干扰的方法和装置。 操作频带可以在多个相邻或相邻的小区之间共享,例如在频率重用一个配置中。 无线通信系统可以跨多个基站同步一个或多个资源分配区域或区域,并且可以协调每个资源分配区域内的置换类型。 基站可以协调多个协调资源分配区域中的每一个中的导频配置。 可以基于干扰级别在协调的资源分配区域中为用户站分配资源。 订户站可以确定协调资源分配区域中的多个基站中的每个基站的信道估计以减轻干扰。