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    • 5. 发明授权
      US07787530B2 Multi-channel adapative quality control loop for link rate adaptation in data packet communications 有权
    • Multi-channel adapative quality control loop for link rate adaptation in data packet communications
    • 用于数据包通信中链路速率适配的多信道适应质量控制环路
    • US07787530B2
    • 2010-08-31
    • US10033338
    • 2001-12-28
    • Sridhar GollamudiPantelis Monogioudis
    • Sridhar GollamudiPantelis Monogioudis
    • H04B3/46H04B17/00
    • H04L1/0021H04B2201/70703H04J13/16H04L1/0003H04L1/0009H04L1/0026H04L1/16H04L1/203
    • An adaptive quality control loop for link rate adaptation based on modulation and/or coding schemes (also referred to as “MCS levels”) and one or more spreading codes that adaptively selects channel condition thresholds in real-time without measuring all the factors that affect selecting optimal channel condition thresholds. The adaptive quality control loop involves adjusting the channel condition thresholds with variable up and down steps based on target quality metrics along with measurements such as error detection results, relative frequencies of visiting each MCS level, and transmitted data rates, wherein the target quality metrics can be a block error rate or bit error rate target criterion. If the target quality metric is a block error rate target criterion, the variable step is determined using a desired MCS error rate based on MCS probabilities, MCS error rates and the block error rate target criterion. If the target quality metric is a bit error rate target criterion, the variable step is determined using a desired MCS error rate based on MCS probabilities, MCS error rates, average rate of bit errors, data rate, and the bit error rate target criterion.
    • 用于基于调制和/或编码方案(也称为“MCS级别”)的链路速率适配的自适应质量控制环路以及实时自适应地选择信道状态阈值的一个或多个扩展码,而不测量影响的所有因素 选择最佳信道条件阈值。 自适应质量控制循环包括基于目标质量度量以及诸如错误检测结果,访问每个MCS级别的相对频率和传输的数据速率的测量结果,以可变的上下步骤来调整信道条件阈值,其中目标质量度量可以 是块错误率或位错误率目标标准。 如果目标质量度量是块错误率目标标准,则基于MCS概率,MCS错误率和块错误率目标标准,使用期望的MCS错误率确定可变步长。 如果目标质量度量是误码率目标准则,则基于MCS概率,MCS错误率,比特误差平均率,数据速率和误码率目标标准,使用期望的MCS错误率确定可变步长。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 6. 发明申请
      US20100202575A1 Interference cancellation with a time-sliced architecture 有权
    • Interference cancellation with a time-sliced architecture
    • 采用时间片式架构的干扰消除
    • US20100202575A1
    • 2010-08-12
    • US12379024
    • 2009-02-11
    • Emad FaragSridhar GollamudiRobert Soni
    • Emad FaragSridhar GollamudiRobert Soni
    • H03D1/04H04L1/18G06F11/14
    • H04L1/1845H04L1/0048
    • Example embodiments include methods of interference cancellation at NodeB receivers of baseband antenna signals including physical channels. The methods include canceling interference from a received baseband antenna signal by removing a reconstructed baseband signal from the processed received baseband antenna signal. The processed reconstructed baseband signal includes users whose physical data channel signals were successfully decoded. Methods also include removing interference from a received baseband signal to form an interference cancelled baseband signal that will be processed by the receiver. The interference cancelled baseband signal is the received baseband antenna signal minus users' signal interference contributions whose demodulated physical data channel signals have a determined user symbol energy value that exceeds a threshold. Methods further include removing interference from a user's signal to be error corrected. The interference is symbol interference from an earlier successfully decoded user's symbols. The user symbol interference is determined by cross correlations.
    • 示例实施例包括在节点B接收机处的干扰消除的方法,包括物理信道的基带天线信号。 所述方法包括通过从经处理的接收基带天线信号中去除重构的基带信号来消除来自接收的基带天线信号的干扰。 经处理的重构基带信号包括其物理数据信道信号被成功解码的用户。 方法还包括从接收到的基带信号中去除干扰以形成由接收机处理的干扰消除的基带信号。 干扰消除的基带信号是接收的基带天线信号减去用户的信号干扰贡献,其解调的物理数据信道信号具有超过阈值的确定的用户符号能量值。 方法还包括从用户的信号中去除要纠错的信号。 干扰是较早成功解码的用户符号的符号干扰。 用户符号干扰由互相关确定。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 8. 发明授权
      US08306164B2 Interference cancellation with a time-sliced architecture 有权
    • Interference cancellation with a time-sliced architecture
    • 采用时间片式架构的干扰消除
    • US08306164B2
    • 2012-11-06
    • US12379024
    • 2009-02-11
    • Emad FaragSridhar GollamudiRobert Soni
    • Emad FaragSridhar GollamudiRobert Soni
    • H04L25/08H04L1/00H03D1/04H03D1/06H03K5/01H03K6/04H04B1/10
    • H04L1/1845H04L1/0048
    • Example embodiments include methods of interference cancellation at NodeB receivers of baseband antenna signals including physical channels. The methods include canceling interference from a received baseband antenna signal by removing a reconstructed baseband signal from the processed received baseband antenna signal. The processed reconstructed baseband signal includes users whose physical data channel signals were successfully decoded. Methods also include removing interference from a received baseband signal to form an interference cancelled baseband signal that will be processed by the receiver. The interference cancelled baseband signal is the received baseband antenna signal minus users' signal interference contributions whose demodulated physical data channel signals have a determined user symbol energy value that exceeds a threshold. Methods further include removing interference from a user's signal to be error corrected. The interference is symbol interference from an earlier successfully decoded user's symbols. The user symbol interference is determined by cross correlations.
    • 示例实施例包括在节点B接收机处的干扰消除的方法,包括物理信道的基带天线信号。 所述方法包括通过从经处理的接收基带天线信号中去除重构的基带信号来消除来自接收的基带天线信号的干扰。 经处理的重构基带信号包括其物理数据信道信号被成功解码的用户。 方法还包括从接收到的基带信号中去除干扰以形成由接收机处理的干扰消除的基带信号。 干扰消除的基带信号是接收的基带天线信号减去用户的信号干扰贡献,其解调的物理数据信道信号具有超过阈值的确定的用户符号能量值。 方法还包括从用户的信号中去除要纠错的信号。 干扰是较早成功解码的用户符号的符号干扰。 用户符号干扰由互相关确定。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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