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    • 1. 发明授权
    • Equalizer training method using re-encoded bits and known training sequences
    • 均衡器训练方法使用重新编码的位和已知的训练序列
    • US07529297B2
    • 2009-05-05
    • US11271692
    • 2005-11-10
    • Yue ChenArkady Molev-ShteimanAric HeimanNelson R. SollenbergerHuaiyu (Hanks) ZengBaoguo Yang
    • Yue ChenArkady Molev-ShteimanAric HeimanNelson R. SollenbergerHuaiyu (Hanks) ZengBaoguo Yang
    • H03H7/30H04B1/10
    • H04L25/03171H04L25/03133
    • The present invention provides a multi-branch equalizer processing module operable to cancel interference associated with received radio frequency (RF) burst(s). This multi-branch equalizer processing module includes both a first equalizer processing branch and a second equalizer processing branch. The first equalizer processing branch is operable to be trained based upon known training sequences and equalize the received RF burst. This results in soft samples or decisions which in turn may be converted to data bits. The soft samples are processed with a de-interleaver and channel decoder, where the combination is operable to produce a decoded frame of data bits from the soft samples. A re-encoder may re-encode the decoded frame to produce re-encoded or at least partially re-encoded data bits. An interleaver then processes the at least partially re-encoded data bits to produce and at least partially re-encoded burst. The second equalizer processing branch uses the at least partially re-encoded data bits to train linear equalizer(s) within-the second equalizer processing branch. A buffer may initially store the received RF burst(s), which are retrieved and equalized by the second equalizer processing branch once the linear equalizer(s) are trained. This results in alternate soft samples or decisions which in turn may be converted to alternate data bits. The alternate soft samples are processed with the de-interleaver and channel decoder, where the combination is operable to produce an alternate decoded frame of data bits from the alternate soft samples. This allows interfering signals to be cancelled and more accurate processing of the received RF bursts to occur.
    • 本发明提供一种多分支均衡器处理模块,其可操作以消除与接收的射频(RF)突发相关联的干扰。 该多分支均衡器处理模块包括第一均衡器处理分支和第二均衡器处理分支。 第一均衡器处理分支可操作以基于已知的训练序列进行训练,并均衡所接收的RF突发。 这导致软样本或决策,而这些样本或决定又可以转换为数据位。 软采样用解交织器和信道解码器处理,其中组合可操作以从软样本产生解码的数据比特帧。 重新编码器可以对解码的帧进行重新编码,以产生重新编码或至少部分重新编码的数据比特。 交织器然后处理至少部分重新编码的数据比特以产生和至少部分地重新编码突发。 第二均衡器处理分支使用至少部分重新编码的数据位来训练第二均衡器处理分支内的线性均衡器。 缓冲器可以初始地存储所接收的RF突发,一旦训练了线性均衡器,其将被第二均衡器处理分支检索和均衡。 这导致交替的软样本或决定,这又可以转换为备用数据位。 用去交织器和信道解码器处理替代软样本,其中组合可操作以从备选软样本产生替代解码的数据比特帧。 这允许消除干扰信号并且发生接收的RF突发的更精确的处理。
    • 2. 发明申请
    • Single antenna interference cancellation within a wireless terminal
    • 无线终端内的单天线干扰消除
    • US20060198432A1
    • 2006-09-07
    • US11150925
    • 2005-06-13
    • Huaiyu (Hanks) ZengBaoguo YangArkady Molev-ShteimanArie HeimanYue ChenNelson R. Sollenberger
    • Huaiyu (Hanks) ZengBaoguo YangArkady Molev-ShteimanArie HeimanYue ChenNelson R. Sollenberger
    • H03H7/30H03D1/04
    • H04L25/03171H04L25/03133
    • The present invention provides a multi-branch equalizer processing module operable to cancel interference associated with received radio frequency (RF) burst(s). This multi-branch equalizer processing module includes both a first equalizer processing branch and a second equalizer processing branch. The first equalizer processing branch is operable to be trained based upon known training sequences and equalize the received RF burst. This results in soft samples or decisions which in turn may be converted to data bits. The soft samples are processed with a de-interleaver and channel decoder, where the combination is operable to produce a decoded frame of data bits from the soft samples. A re-encoder may re-encode the decoded frame to produce re-encoded or at least partially re-encoded data bits. An interleaver then processes the at least partially re-encoded data bits to produce and at least partially re-encoded burst. The second equalizer processing branch uses the at least partially re-encoded data bits to train linear equalizer(s) within the second equalizer processing branch. A buffer may initially store the received RF burst(s), which are retrieved and equalized by the second equalizer processing branch once the linear equalizer(s) are trained. This results in alternate soft samples or decisions which in turn may be converted to alternate data bits. The alternate soft samples are processed with the de-interleaver and channel decoder, where the combination is operable to produce an alternate decoded frame of data bits from the alternate soft samples. This allows interfering signals to be cancelled and more accurate processing of the received RF bursts to occur.
    • 本发明提供一种多分支均衡器处理模块,其可操作以消除与接收的射频(RF)突发相关联的干扰。 该多分支均衡器处理模块包括第一均衡器处理分支和第二均衡器处理分支。 第一均衡器处理分支可操作以基于已知的训练序列进行训练,并均衡所接收的RF突发。 这导致软样本或决策,而这些样本或决定又可以转换为数据位。 软采样用解交织器和信道解码器处理,其中组合可操作以从软样本产生解码的数据比特帧。 重新编码器可以对解码的帧进行重新编码,以产生重新编码或至少部分重新编码的数据比特。 交织器然后处理至少部分重新编码的数据比特以产生和至少部分地重新编码突发。 第二均衡器处理分支使用至少部分重新编码的数据比特来训练第二均衡器处理分支内的线性均衡器。 缓冲器可以初始地存储所接收的RF突发,一旦训练了线性均衡器,其将被第二均衡器处理分支检索和均衡。 这导致交替的软样本或决定,这又可以转换为备用数据位。 用去交织器和信道解码器处理替代软样本,其中组合可操作以从备选软样本产生替代解码的数据比特帧。 这允许消除干扰信号并且发生接收的RF突发的更精确的处理。
    • 3. 发明授权
    • Equalize training method using re-encoded bits and known training sequences
    • 使用重新编码的比特和已知的训练序列来均衡训练方法
    • US07903728B2
    • 2011-03-08
    • US12431605
    • 2009-04-28
    • Yue ChenArkady Molev-ShteimanArie HeimanNelson R. SollenbergerHuaiyu (Hanks) ZengBaoguo Yang
    • Yue ChenArkady Molev-ShteimanArie HeimanNelson R. SollenbergerHuaiyu (Hanks) ZengBaoguo Yang
    • H03H7/30H04B1/10
    • H04L25/03171H04L25/03133
    • Equalizer training method using re-encoded bits and known training sequences. A multi-branch equalizer processing module is operable to cancel interference associated with received radio frequency (RF) burst(s) (e.g., using at least a first equalizer processing branch and a second equalizer processing branch). The first equalizer processing branch is operable to be trained based upon known training sequences and to equalize the received RF burst. The second equalizer processing branch uses at least partially re-encoded data bits to train linear equalizer(s) within the second equalizer processing branch. A buffer may initially store the received RF burst(s), which are retrieved and equalized by the second equalizer processing branch once the linear equalizer(s) are trained. The cooperation operation of these and other various components allows interfering signals to be cancelled and for more accurate processing of the received RF bursts to occur.
    • 均衡器训练方法使用重新编码的位和已知的训练序列。 多分支均衡器处理模块可操作以消除与接收的射频(RF)突发相关联的干扰(例如,使用至少第一均衡器处理分支和第二均衡器处理分支)。 第一均衡器处理分支可操作以基于已知的训练序列进行训练,并均衡所接收的RF突发。 第二均衡器处理分支使用至少部分重新编码的数据位来训练第二均衡器处理分支内的线性均衡器。 缓冲器可以初始地存储所接收的RF突发,一旦训练了线性均衡器,其将被第二均衡器处理分支检索和均衡。 这些和其他各种组件的协作操作允许消除干扰信号并且为了更准确地处理接收的RF突发而发生。
    • 4. 发明授权
    • Single antenna interference cancellation within a wireless terminal
    • 无线终端内的单天线干扰消除
    • US07450635B2
    • 2008-11-11
    • US11150925
    • 2005-06-13
    • Huaiyu (Hanks) ZengBaoguo YangArkady Molev-ShteimanArie HeimanYue ChenNelson R. Sollenberger
    • Huaiyu (Hanks) ZengBaoguo YangArkady Molev-ShteimanArie HeimanYue ChenNelson R. Sollenberger
    • H03H7/30H03K5/156H04B1/10
    • H04L25/03171H04L25/03133
    • The present invention provides a multi-branch equalizer processing module operable to cancel interference associated with received radio frequency (RF) burst(s). This multi-branch equalizer processing module includes both a first equalizer processing branch and a second equalizer processing branch. The first equalizer processing branch is operable to be trained based upon known training sequences and equalize the received RF burst. This results in soft samples or decisions which in turn may be converted to data bits. The soft samples are processed with a de-interleaver and channel decoder, where the combination is operable to produce a decoded frame of data bits from the soft samples. A re-encoder may re-encode the decoded frame to produce re-encoded or at least partially re-encoded data bits. An interleaver then processes the at least partially re-encoded data bits to produce and at least partially re-encoded burst. The second equalizer processing branch uses the at least partially re-encoded data bits to train linear equalizer(s) within the second equalizer processing branch. A buffer may initially store the received RF burst(s), which are retrieved and equalized by the second equalizer processing branch once the linear equalizer(s) are trained. This results in alternate soft samples or decisions which in turn may be converted to alternate data bits. The alternate soft samples are processed with the de-interleaver and channel decoder, where the combination is operable to produce an alternate decoded frame of data bits from the alternate soft samples. This allows interfering signals to be cancelled and more accurate processing of the received RF bursts to occur.
    • 本发明提供一种多分支均衡器处理模块,其可操作以消除与接收的射频(RF)突发相关联的干扰。 该多分支均衡器处理模块包括第一均衡器处理分支和第二均衡器处理分支。 第一均衡器处理分支可操作以基于已知的训练序列进行训练,并均衡所接收的RF突发。 这导致软样本或决策,而这些样本或决定又可以转换为数据位。 软采样用解交织器和信道解码器处理,其中组合可操作以从软样本产生解码的数据比特帧。 重新编码器可以对解码的帧进行重新编码,以产生重新编码或至少部分重新编码的数据比特。 交织器然后处理至少部分重新编码的数据比特以产生和至少部分地重新编码突发。 第二均衡器处理分支使用至少部分重新编码的数据比特来训练第二均衡器处理分支内的线性均衡器。 缓冲器可以初始地存储所接收的RF突发,一旦训练了线性均衡器,其将被第二均衡器处理分支检索和均衡。 这导致交替的软样本或决定,这又可以转换为备用数据位。 用去交织器和信道解码器处理替代软样本,其中组合可操作以从备选软样本产生替代解码的数据比特帧。 这允许消除干扰信号并且发生接收的RF突发的更精确的处理。
    • 5. 发明申请
    • Equalizer training method using re-encoded bits and known training sequences
    • 均衡器训练方法使用重新编码的位和已知的训练序列
    • US20090207899A1
    • 2009-08-20
    • US12431605
    • 2009-04-28
    • Yue ChenArkady Molev-ShteimanArie HeimanNelson R. SollenbergerHuaiyu (Hanks) ZengBaoguo Yang
    • Yue ChenArkady Molev-ShteimanArie HeimanNelson R. SollenbergerHuaiyu (Hanks) ZengBaoguo Yang
    • H04L27/01
    • H04L25/03171H04L25/03133
    • The present invention provides a multi-branch equalizer processing module operable to cancel interference associated with received radio frequency (RF) burst(s). This multi-branch equalizer processing module includes both a first equalizer processing branch and a second equalizer processing branch. The first equalizer processing branch is operable to be trained based upon known training sequences and equalize the received RF burst. This results in soft samples or decisions which in turn may be converted to data bits. The soft samples are processed with a de-interleaver and channel decoder, where the combination is operable to produce a decoded frame of data bits from the soft samples. A re-encoder may re-encode the decoded frame to produce re-encoded or at least partially re-encoded data bits. An interleaver then processes the at least partially re-encoded data bits to produce and at least partially re-encoded burst. The second equalizer processing branch uses the at least partially re-encoded data bits to train linear equalizer(s) within the second equalizer processing branch. A buffer may initially store the received RF burst(s), which are retrieved and equalized by the second equalizer processing branch once the linear equalizer(s) are trained. This results in alternate soft samples or decisions which in turn may be converted to alternate data bits. The alternate soft samples are processed with the de-interleaver and channel decoder, where the combination is operable to produce an alternate decoded frame of data bits from the alternate soft samples. This allows interfering signals to be cancelled and more accurate processing of the received RF bursts to occur.
    • 本发明提供一种多分支均衡器处理模块,其可操作以消除与接收的射频(RF)突发相关联的干扰。 该多分支均衡器处理模块包括第一均衡器处理分支和第二均衡器处理分支。 第一均衡器处理分支可操作以基于已知的训练序列进行训练,并均衡所接收的RF突发。 这导致软样本或决策,而这些样本或决定又可以转换为数据位。 软采样用解交织器和信道解码器处理,其中组合可操作以从软样本产生解码的数据比特帧。 重新编码器可以对解码的帧进行重新编码,以产生重新编码或至少部分重新编码的数据比特。 交织器然后处理至少部分重新编码的数据比特以产生和至少部分地重新编码突发。 第二均衡器处理分支使用至少部分重新编码的数据比特来训练第二均衡器处理分支内的线性均衡器。 缓冲器可以初始地存储所接收的RF突发,一旦训练了线性均衡器,其将被第二均衡器处理分支检索和均衡。 这导致交替的软样本或决定,这又可以转换为备用数据位。 用去交织器和信道解码器处理替代软样本,其中组合可操作以从备选软样本产生替代解码的数据比特帧。 这允许消除干扰信号并且发生接收的RF突发的更精确的处理。
    • 7. 发明授权
    • Adaptive interference cancellation algorithm using speech mode dependent thresholds
    • 使用语音模式相关阈值的自适应干扰消除算法
    • US08068539B2
    • 2011-11-29
    • US12893026
    • 2010-09-29
    • Arkady Molev-ShteimanNelson R. SollenbergerHuaiyu (Hanks) Zeng
    • Arkady Molev-ShteimanNelson R. SollenbergerHuaiyu (Hanks) Zeng
    • H03H7/30H04B1/10
    • H04L25/03038H04L25/0224H04L25/0305H04L25/03178H04L2025/03401
    • Adaptive interference cancellation algorithm using speech mode dependent thresholds. A method of processing radio frequency (RF) bursts dependent on a speech mode associated with data contained within the RF burst is presented. Different voice modes, full rate, half rate, and adaptive multi-channel rates each may require different signal to noise ratio (SNR) conditions in order to be successfully processed. To improve the equalization, the SNR associated with the burst is estimated. Based on the SNR or other related conditions, a decision can be made as to whether or not an interference cancellation burst process should be implemented. For example, any one or more of SNR of the signal, a measure of colored noise within the signal, an indication whether the signal being noise limited or interference limited, and a channel profile of the signal may indicate the presence of interference requiring the cancellation of such interference.
    • 使用语音模式相关阈值的自适应干扰消除算法。 呈现依赖于与包含在RF突发内的数据相关联的语音模式的射频(RF)脉冲串的处理方法。 不同的语音模式,全速率,半速率和自适应多信道速率各自可能需要不同的信噪比(SNR)条件才能被成功处理。 为了改善均衡,估计与突发相关联的SNR。 基于SNR或其他相关条件,可以做出是否应该实施干扰消除突发过程的决定。 例如,信号的SNR中的任何一个或多个,信号内的彩色噪声的测量,噪声限制的信号或干扰受限的指示以及信号的信道分布可以指示存在需要消除的干扰 的这种干扰。
    • 8. 发明授权
    • Adaptive interference cancellation algorithm using speech mode dependent thresholds
    • 使用语音模式相关阈值的自适应干扰消除算法
    • US07809096B2
    • 2010-10-05
    • US11150957
    • 2005-06-13
    • Arkady Molev-ShteimanNelson R. SollenbergerHuaiyu (Hanks) Zeng
    • Arkady Molev-ShteimanNelson R. SollenbergerHuaiyu (Hanks) Zeng
    • H04B1/10
    • H04L25/03038H04L25/0224H04L25/0305H04L25/03178H04L2025/03401
    • The present invention provides a method of processing radio frequency (RF) bursts dependent on a speech mode associated with data contained within the RF burst. Different voice modes, full rate, half rate, and adaptive multi-channel rates each may require different signal to noise ratio (SNR) conditions in order to be successfully processed. To improve the equalization of the received RF burst(s), the SNR associated with the burst is estimated. Then based on the SNR or other related conditions (i.e. the presence or absence of colored noise, and the estimated channel profile) a decision can be made as to whether or not an interference cancellation burst process should be implemented. For example, the presence of colored noise may indicate the presence of interference requiring the cancellation of such interference, the channel profile as described by the channel length and other associated properties may help determine when an interference cancellation process should be utilized as well, and if there is insufficient SNR, i.e. the SNR is below the predetermined threshold, all indicate that it may be desirable to implement interference cancellation to improve the processing of the received burst(s).
    • 本发明提供了一种处理与RF数据中包含的数据相关联的语音模式的射频(RF)突发的方法。 不同的语音模式,全速率,半速率和自适应多信道速率各自可能需要不同的信噪比(SNR)条件才能被成功处理。 为了改善所接收的RF突发的均衡,估计与突发相关联的SNR。 然后基于SNR或其他相关条件(即有色噪声的存在或不存在以及估计的信道简档),可以做出关于是否应该实现干扰消除突发处理的决定。 例如,有色噪声的存在可以指示需要消除这种干扰的干扰的存在,由信道长度和其他相关属性描述的信道简档可以帮助确定什么时候还应该使用干扰消除过程,并且如果 SNR不足,即SNR低于预定阈值,都表示可能希望实现干扰消除以改善接收到的突发的处理。
    • 9. 发明申请
    • CHANNEL ESTIMATION METHOD OPERABLE TO CANCEL A DOMINANT DISTURBER SIGNAL FROM A RECEIVED SIGNAL
    • 可以从接收到的信号中取消主要的干扰信号的信道估计方法
    • US20090170439A1
    • 2009-07-02
    • US12400429
    • 2009-03-09
    • Arkady Molev-ShteimanArie HeimanHuaiyu (Hanks) Zeng
    • Arkady Molev-ShteimanArie HeimanHuaiyu (Hanks) Zeng
    • H04B15/00
    • H04L25/03292H04L25/0328
    • A processing module produces improved main channel estimate. This process involves initially estimating the channel impulse response. This result is based on and combined with a known sequences such as that provided by training sequences of the midamble within RF bursts. From this combination, it is possible to produce an estimated signal from a convolution of the channel impulse response and midamble. The estimated signal may be cancelled or subtracted from the received signal to produce a clearer image of the disturber signal. A blind data recovery performed upon the disturber signal. The recovered disturber data may be used as a reference for disturber channel estimation in order to produce a disturber channel impulse response. With the estimated disturber channel impulse response and the recovered disturber data, an estimated disturber signal may be reconstructed and subtracted from the received signal. This allows the cancellation of the estimated disturber signal. Without a clear or dominant disturber signal, a better representation of the main channel impulse response may be produced. This results in more accurate processing of the received RF bursts and improved receiver performance.
    • 处理模块产生改进的主信道估计。 该过程包括初始估计信道脉冲响应。 该结果基于已知的序列,例如由RF阵列内的训练序列提供的已知序列。 从该组合,可以从信道脉冲响应和中间码的卷积产生估计信号。 可以从接收到的信号中消除或减去估计信号,以产生干扰信号的更清晰的图像。 对干扰信号执行盲目数据恢复。 恢复的干扰数据可以用作干扰信道估计的参考,以产生干扰信道脉冲响应。 利用估计的干扰信道脉冲响应和恢复的干扰数据,可以重建估计的干扰信号并从接收信号中减去干扰信号。 这允许取消估计的干扰信号。 没有清晰或主导的干扰信号,可以产生主信道脉冲响应的更好的表示。 这导致对接收到的RF突发的更精确的处理和改进的接收机性能。
    • 10. 发明授权
    • Colored noise detection algorithms
    • 彩色噪声检测算法
    • US07184474B2
    • 2007-02-27
    • US11150931
    • 2005-06-13
    • Arkady Molev-ShteimanArie HeimanHuaiyu (Hanks) Zeng
    • Arkady Molev-ShteimanArie HeimanHuaiyu (Hanks) Zeng
    • H03H7/30H03K5/159H04B1/10
    • H04L25/03133H04L1/005H04L1/0065H04L1/0072H04L2025/03726
    • This invention provides colored noise detection algorithm(s). This colored noise detection algorithm(s) may be implemented with a multi-branch equalizer processing module that enables interference cancellation when colored noise is associated with received radio frequency (RF) bursts. The noise discriminator identifies when the radio frequency (RF) bursts have white noise or colored noise associated with them. Alternatively the noise discriminator may be able to determine and enable interference cancellation in response to an interference-limited received RF burst as opposed to a noise-limited received RF burst. The multi-branch equalizer improves the signal-to-noise ratio by improving the equalization with a second branch operable to be trained based upon known training sequences and at least partially re-encoded data bits.
    • 本发明提供了彩色噪声检测算法。 这种彩色噪声检测算法可以用多分支均衡器处理模块实现,当彩色噪声与接收的射频(RF)突发相关联时,能够进行干扰消除。 噪声识别器识别射频(RF)突发具有白噪声或与其相关联的彩色噪声的时间。 或者,与受噪声限制的接收RF突发相反,噪声鉴别器可以响应于受干扰限制的接收RF突发而能够确定和启用干扰消除。 多分支均衡器通过利用可操作以基于已知的训练序列和至少部分重新编码的数据比特来训练的第二分支来改进均衡来提高信噪比。