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    • 1. 发明申请
    • MULTIPLE FREQUENCY BAND OPERATION IN WIRELESS NETWORKS
    • 无线网络中的多频带操作
    • US20110299417A1
    • 2011-12-08
    • US13156109
    • 2011-06-08
    • Sanjiv NandaShravan K. SurineniJay Rodney Walton
    • Sanjiv NandaShravan K. SurineniJay Rodney Walton
    • H04W24/00
    • H04W72/02H04W16/14H04W24/00H04W76/10
    • Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restricted from overlapping. Interference may be detected (930) on primary, secondary, or a combination of channels, and may be detected in response to energy measurements (910) of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS)(100) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT (1010) may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions. Various other aspects are also presented.
    • 描述带宽分配方法的实施例,检测与其他系统的干扰和/或以备用带宽重新部署。 较高带宽信道可以部署在作为较低带宽信道(310)的子集的信道边界(410)处,并且可以被限制以重叠。 可以在主要,次要或信道的组合上检测(930)干扰,并且可以响应于各种信道的能量测量(910)来检测干扰。 当检测到干扰时,可以将更高带宽的基本业务集(BSS)(100)重新定位到备用信道,或者可以减少其带宽以避免干扰。 可以基于在主要或次要信道上测量的能量和/或两者之间的差异来检测干扰。 可以在主要和次要信道中的一个或两个中的能量测量中使用FFT(1010)。 站点还可以监视来自备用系统的消息以进行信道分配决定。 还提出了各种其他方面。
    • 6. 发明申请
    • MULTIPLE FREQUENCY BAND OPERATION IN WIRELESS NETWORKS
    • 无线网络中的多频带操作
    • US20090285116A1
    • 2009-11-19
    • US12507850
    • 2009-07-23
    • Sanjiv NandaShravan K. SurineniJay Rodney Walton
    • Sanjiv NandaShravan K. SurineniJay Rodney Walton
    • H04L12/26H04B17/00H04L12/413
    • H04W72/02H04W16/14H04W24/00H04W76/10
    • Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restricted from overlapping. Interference may be detected (930) on primary, secondary, or a combination of channels, and may be detected in response to energy measurements (910) of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS)(100) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT (1010) may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions. Various other aspects are also presented.
    • 描述带宽分配方法的实施例,检测与其他系统的干扰和/或以备用带宽重新部署。 较高带宽信道可以部署在作为较低带宽信道(310)的子集的信道边界(410)处,并且可以被限制以重叠。 可以在主要,次要或信道的组合上检测(930)干扰,并且可以响应于各种信道的能量测量(910)来检测干扰。 当检测到干扰时,可以将更高带宽的基本业务集(BSS)(100)重新定位到备用信道,或者可以减少其带宽以避免干扰。 可以基于在主要或次要信道上测量的能量和/或两者之间的差异来检测干扰。 可以在主要和次要信道中的一个或两个中的能量测量中使用FFT(1010)。 站点还可以监视来自备用系统的消息以进行信道分配决定。 还提出了各种其他方面。
    • 7. 发明授权
    • Open-loop rate control for a TDD communication system
    • TDD通信系统的开环速率控制
    • US08498215B2
    • 2013-07-30
    • US11175787
    • 2005-07-05
    • Jay Rodney WaltonShravan K. SurineniArnaud MaylanSanjiv Nanda
    • Jay Rodney WaltonShravan K. SurineniArnaud MaylanSanjiv Nanda
    • H04J1/16
    • H04L1/0015H04B17/309H04L1/0002H04L1/1607Y02D50/10
    • Techniques for performing open-loop rate control in a TDD communication system are described. The channel quality of a first link is estimated based on a transmission received via the first link. The channel quality of a second link is estimated based on the estimated channel quality of the first link and an asymmetric parameter. At least one rate for a data transmission via the second link is selected based on the estimated channel quality of the second link. The estimated channel quality for each link may be given by a set of SNR estimates for a set of transmission channels on that link. The asymmetric parameter may be determined based on (1) the capabilities (e.g., transmit power, receiver noise figure, and number of antennas) of the transmitting and receiving stations or (2) received SNRs for the first and second links.
    • 描述用于在TDD通信系统中执行开环速率控制的技术。 基于经由第一链路接收的传输来估计第一链路的信道质量。 基于第一链路的估计信道质量和非对称参数来估计第二链路的信道质量。 基于第二链路的估计信道质量来选择用于经由第二链路的数据传输的至少一个速率。 每个链路的估计信道质量可以由对该链路上的一组传输信道的一组SNR估计给出。 可以基于(1)发射和接收站的能力(例如,发射功率,接收机噪声系数和天线数)来确定非对称参数,或者(2)第一和第二链路的接收SNR。
    • 8. 发明授权
    • Multiple frequency band operation in wireless networks
    • 无线网络中的多频段操作
    • US07983298B2
    • 2011-07-19
    • US11253358
    • 2005-10-18
    • Sanjiv NandaShravan K. SurineniJay Rodney Walton
    • Sanjiv NandaShravan K. SurineniJay Rodney Walton
    • H04J3/16
    • H04W16/10H04W24/10H04W72/00
    • Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries, which are a subset of those for lower bandwidth channels, and may be restricted from overlapping. Interference may be detected on primary, secondary, or a combination of channels, and may be detected in response to energy measurements of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions. Various other aspects are also presented.
    • 描述带宽分配方法的实施例,检测与其他系统的干扰和/或以备用带宽重新部署。 较高带宽信道可以部署在信道边界,其是用于较低带宽信道的子集,并且可以被限制为重叠。 可以在主要,次要或信道的组合上检测干扰,并且可以响应于各种信道的能量测量来检测干扰。 当检测到干扰时,较高带宽的基本业务集(BSS)可以被重定位到备用信道,或者可以减少其带宽以避免干扰。 可以基于在主要或次要信道上测量的能量和/或两者之间的差异来检测干扰。 可以在主要和次要信道中的一个或两个中的能量测量中使用FFT。 站点还可以监视来自备用系统的消息以进行信道分配决定。 还提出了各种其他方面。