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    • 2. 发明申请
    • QUASI-LINEAR INTERFERENCE CANCELLATION FOR WIRELESS COMMUNICATION
    • 无线通信的线性干扰消除
    • WO2007102897A3
    • 2007-11-29
    • PCT/US2006061163
    • 2006-11-21
    • QUALCOMM INCBANISTER BRIAN CLARKE
    • BANISTER BRIAN CLARKE
    • H04B1/707
    • H04B1/71075H04B1/712H04B2001/70935
    • Techniques for performing interference cancellation in a wireless (eg, CDMA) communication system are described. For a single-sector interference canceller, received samples are processed (e.g., despread) to isolate a signal from a transmitter (e.g., a base station) and obtain input samples. The input samples are transformed based on a first transform (e.g., a fast Hadamard transform) (416) to obtain received symbols for multiple orthogonal channels (e.g., Walsh bins) . The received symbols for the multiple orthogonal channels are scaled with multiple gains (440) to obtain scaled symbols. The gains may be related to the inverses of the power estimates for the orthogonal channels. The scaled symbols are transformed based on a second transform (e.g., an inverse fast Hadamard transform) (442) to obtain output samples, which are processed (e.g., spread) to obtain interference-canceled samples having the signal from the transmitter suppressed.
    • 描述了在无线(例如CDMA)通信系统中执行干扰消除的技术。 对于单扇区干扰消除器,接收的样本被处理(例如,去扩展)以隔离来自发射机(例如,基站)的信号并获得输入采样。 基于第一变换(例如,快速Hadamard变换)(416)来变换输入样本,以获得用于多个正交信道(例如沃尔什bin)的接收符号。 多个正交信道的接收符号用多个增益(440)缩放以获得缩放的符号。 增益可能与正交信道的功率估计的逆相关。 基于第二变换(例如,逆快速哈达玛变换)(442)来转换经缩放的符号,以获得被处理(例如扩展)以获得具有来自发射机的信号被抑制的干扰消除样本的输出采样。
    • 3. 发明申请
    • INTERFERENCE CANCELLATION WITH IMPROVED ESTIMATION AND TRACKING FOR WIRELESS COMMUNICATION
    • 干扰消除与改进无线通信的估计和跟踪
    • WO2007117317A2
    • 2007-10-18
    • PCT/US2006061706
    • 2006-12-06
    • QUALCOMM INCBANISTER BRIAN CLARKE
    • BANISTER BRIAN CLARKE
    • H04B1/7107
    • Techniques for performing interference cancellation in a wireless (e.g., CDMA) communication system are described. In one aspect, per-bin power estimates for multiple orthogonal bins are derived by estimating at least two components of these power estimates. The components may include, e.g., channel gain, noise and interference, and bin gain. Interference cancellation is performed based on the per-bin power estimates. In another aspect, interference cancellation is performed in multiple stages with fast tracking. A total power estimate and per-bin power estimates are derived for a first stage. A total power estimate is derived for a second stage. Per-bin power estimates are also derived for the second stage based on the total power estimates for the first and second stages and the per-bin power estimates for the first stage. Interference cancellation is performed for each stage based on the per-bin power estimates for that stage.
    • 描述了在无线(例如CDMA)通信系统中执行干扰消除的技术。 在一个方面,通过估计这些功率估计的至少两个分量来导出多个正交区块的每箱功率估计。 这些组件可以包括例如信道增益,噪声和干扰以及信道增益。 基于每箱功率估计执行干扰消除。 在另一方面,通过快速跟踪在多个阶段执行干扰消除。 第一阶段得出总功率估计和每箱功率估计。 导出第二阶段的总功率估计。 基于第一阶段和第二阶段的总功率估计以及第一阶段的每个二进制数功率估计,也为第二阶段导出每斌功率估计。 基于该阶段的每箱功率估计,针对每个阶段执行干扰消除。
    • 7. 发明申请
    • FREQUENCY DIVERSE TRANSMISSIONS IN A WIRELESS COMMUNICATION SYSTEM
    • 无线通信系统中的频率差异传输
    • WO2009023736A3
    • 2009-06-25
    • PCT/US2008073063
    • 2008-08-13
    • QUALCOMM INCMALLADI DURGA PRASADBANISTER BRIAN CLARKEMONTOJO JUAN
    • MALLADI DURGA PRASADBANISTER BRIAN CLARKEMONTOJO JUAN
    • H04L27/26
    • H04L5/0023H04B1/7136H04L5/0037H04L5/0044
    • Techniques for dynamically mapping assigned resources to physical resources are described herein. In one design, a resource assigned for communication may be mapped to a first physical resource based on a first mapping function and to a second physical resource based on a second mapping function. The assigned resource may be configurable for hopping or no hopping. The first mapping function may be a transparent function or may map consecutive input indices to non-consecutive output indices. The second mapping function may be equal to an output of the first mapping function plus an offset defined by a step size and a hop value. The hop value may be configurable for the assigned resource and may be conveyed in a resource assignment. The hop value may be set to a first value to indicate no hopping or to a second value to indicate hopping by the step size.
    • 这里描述了将分配的资源动态映射到物理资源的技术。 在一种设计中,分配用于通信的资源可以基于第一映射函数被映射到第一物理资源并且基于第二映射函数被映射到第二物理资源。 分配的资源可以配置为跳频或不跳频。 第一映射函数可以是透明函数或者可以将连续的输入索引映射到非连续的输出索引。 第二映射函数可以等于第一映射函数的输出加上由步长和跳跃值定义的偏移量。 跳数值可以针对分配的资源进行配置,并且可以在资源分配中传送。 跳跃值可以被设置为第一值以指示没有跳跃或者第二值以指示通过步长跳跃。
    • 8. 发明申请
    • APPARATUS AND METHODS FOR SAMPLING RATE CONVERSION FOR WIRELESS TRANSCEIVERS
    • 用于采样无线收发器的速率转换的装置和方法
    • WO2011106651A3
    • 2011-11-24
    • PCT/US2011026254
    • 2011-02-25
    • QUALCOMM INCJI ZHUBANISTER BRIAN CLARKEKANG INYUP
    • JI ZHUBANISTER BRIAN CLARKEKANG INYUP
    • H03H17/02H03H17/06
    • H03H17/0294H03H17/0642
    • Disclosed are methods and apparatus for sampling rate conversion in a wireless transceiver. The methods and apparatus achieve agile setting of sampling rates or resampling by adaptively setting a sampling rate of a signal based on at least one performance requirement of the transceiver. In particular, the methods and apparatus perform sampling of an input signal at a first sampling rate to gain one or more input signal samples. The input signal samples are then filtered using parallel or polyphase filtering operating at a second sampling rate lower than the first sampling rate. The filtered samples are then interpolated at the second sampling rate to achieve resampling of the input signal. Polyphase filtering affords an effectively high input sampling rate for good spectrum image rejection, while allowing the second sampling rate to be effectively much lower than the first rate, thereby reducing the complexity of multiplier operations for interpolation.
    • 公开了用于无线收发器中的采样率转换的方法和设备。 该方法和装置通过基于收发器的至少一个性能需求自适应地设置信号的采样率来实现采样速率的灵活设置或重采样。 特别地,该方法和设备以第一采样率对输入信号进行采样以获得一个或多个输入信号采样。 然后使用以低于第一采样率的第二采样率进行操作的并行或多相滤波对输入信号采样进行滤波。 然后以第二采样速率对经滤波的样本进行插值以实现输入信号的重采样。 多相滤波提供了一个有效的高输入采样率以获得良好的频谱图像抑制,同时允许第二采样率实际上远低于第一采样率,从而降低了用于插值的乘法器操作的复杂度。