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    • 1. 发明授权
    • Method and system for implementing multiple timing domains for primary and secondary synchronization detection in EUTRA/LTE
    • 用于在EUTRA / LTE中实现主要和次要同步检测的多个定时域的方法和系统
    • US08614994B2
    • 2013-12-24
    • US12500575
    • 2009-07-09
    • Francis SwartsMark Kent
    • Francis SwartsMark Kent
    • H04J3/00
    • H04W56/001H04J11/0069H04L27/2655H04L27/2662H04L27/2671H04L27/2675
    • A mobile device receives a signal, from a base station, comprising a primary synchronization sequence (PSS) and a secondary synchronization sequence (SSS). The mobile device utilizes two different sampling rates to perform the PSS synchronization and the SSS detection individually. For example, the mobile device synchronizes to the received PSS at a first sampling rate such as 0.96 MHz, which is determined based on the PSS transmission rate and/or the length of the received PSS. The mobile device detects the received SSS at a second sampling rate such as 1.92 MHz, which equals to the sampling rate for an analog-to-digital conversion at the mobile device. The received PSS and associated symbol timing are detected through the PSS synchronization to support the SSS detection. The detected SSS is used to acquire cell-specific parameters such as cell ID. The acquired cell-specific parameters ensure proper communications between the mobile device and the base station.
    • 移动设备从基站接收包括主同步序列(PSS)和辅同步序列(SSS)的信号。 移动设备利用两种不同的采样率来分别执行PSS同步和SSS检测。 例如,移动设备以基于PSS传输速率和/或所接收的PSS的长度确定的第一采样率(例如0.96MHz)与所接收的PSS同步。 移动设备以诸如1.92MHz的第二采样率来检测接收的SSS,其等于在移动设备处的模数转换的采样率。 通过PSS同步检测接收的PSS和相关的符号定时,以支持SSS检测。 检测到的SSS用于获取诸如小区ID的小区特定参数。 所获取的小区特定参数确保移动设备和基站之间的正确通信。
    • 2. 发明授权
    • Method and system for increasing the accuracy of frequency offset estimation in multiple frequency hypothesis testing in an E-UTRA/LTE UE receiver
    • 用于提高E-UTRA / LTE UE接收机多频率假设检验中频偏估计精度的方法和系统
    • US08401123B2
    • 2013-03-19
    • US12510901
    • 2009-07-28
    • Francis SwartsMark Kent
    • Francis SwartsMark Kent
    • H04L27/06
    • H04L27/2657H04J11/0086H04L27/2662H04L27/2675
    • A mobile device receives a radio frequency (RF) signal comprising a primary synchronization sequence (PSS) and a secondary synchronization sequence (SSS). The mobile device performs multiple frequency hypothesis (MFH) testing via multiple MFH branches. A PSS correlation process is performed for each MFH branch. Frequency offset for receiving data is estimated using resulting correlation data. A desired offset is placed in each MFH branch. A baseband signal is frequency offset per MFH branch according to the desired frequency offset before the PSS correlation process. A received PSS is detected based on a maximum PSS correlation over the entire set of MFH branches. A frequency offset is estimated for the MFH branch associated with the detected PSS by combining an associated residual frequency with a corresponding desired offset. The frequency offset estimate is used for baseband signal processing and/or adjusting a reference oscillator frequency at the mobile device.
    • 移动设备接收包括主同步序列(PSS)和辅同步序列(SSS)的射频(RF)信号。 移动设备通过多个MFH分支执行多频率假设(MFH)测试。 对每个MFH分支执行PSS相关处理。 使用所得相关数据估计接收数据的频率偏移。 每个MFH分支中都放置一个所需的偏移量。 根据PSS相关处理之前的期望频率偏移,基带信号是每MFH分支的频偏。 基于整个MFH分支集合上的最大PSS相关性来检测所接收的PSS。 通过将相关联的剩余频率与相应的期望偏移相组合来估计与检测到的PSS相关联的MFH分支的频率偏移。 频移估计用于基带信号处理和/或调整移动装置处的基准振荡器频率。
    • 3. 发明申请
    • Method and Apparatus for Dual Frequency Timing Acquisition for compressed WCDMA Communication Networks
    • 用于压缩WCDMA通信网络的双频定时采集方法和装置
    • US20120243512A1
    • 2012-09-27
    • US13489169
    • 2012-06-05
    • Francis SWARTSMark KentUri Landau
    • Francis SWARTSMark KentUri Landau
    • H04B7/216
    • H04B7/2684H04B1/7075H04W56/00H04W88/06
    • Methods and systems for dual frequency timing acquisition for compressed WCDMA communication networks may include processing received WCDMA signals. The WCDMA signals, which may be primary synchronization channel signals, may comprise signals transmitted by one base station at one frequency band and by another base station at a different frequency band, during a compressed frame. Samples of the received WCDMA signals from the different base stations may be stored in portions of a memory allocated for signals from each base station. The received WCDMA signals having the first frequency band may be processed via the processing circuitry during a non-compressed frame. The samples corresponding to the signals with the first frequency band during the non-compressed frame may be stored in the memory. The received WCDMA signals may be sampled at a faster rate during the non-compressed frame than during the compressed frame.
    • 用于压缩WCDMA通信网络的双频定时获取的方法和系统可以包括处理接收到的WCDMA信号。 可以是主同步信道信号的WCDMA信号可以包括一个基站在一个频带和另一个基站在不同频带下在压缩帧期间发送的信号。 来自不同基站的所接收的WCDMA信号的采样可以存储在为每个基站的信号分配的存储器的部分中。 具有第一频带的所接收的WCDMA信号可以在非压缩帧期间经由处理电路进行处理。 在非压缩帧期间对应于具有第一频带的信号的采样可以存储在存储器中。 可以在非压缩帧期间以比在压缩帧期间更快的速率对所接收的WCDMA信号进行采样。
    • 5. 发明授权
    • Method and system for generating timed events in a radio frame in an E-UTRA/LTE UE receiver
    • 用于在E-UTRA / LTE UE接收机的无线帧中生成定时事件的方法和系统
    • US08948156B2
    • 2015-02-03
    • US13480807
    • 2012-05-25
    • Francis SwartsMark Kent
    • Francis SwartsMark Kent
    • H04W56/00H04J11/00H04L27/26
    • H04J11/0069H04L27/2663H04L27/2671
    • A mobile device coupled to a common system clock receives a signal comprising a primary synchronization sequence (PSS) and a secondary synchronization sequence (SSS) in a radio frame. Sample counts are generated for timed events based on corresponding operating bandwidths. The timed events are detected at modulo sample counts of the generated sample counts according to corresponding operating bandwidths. PSS symbol timing determined via the PSS synchronization is aligned to the generated sample counts based on corresponding operating bandwidth. The generated sample counts are bit-shifted relative to the aligned PSS symbol timing for other timed events based on corresponding operating bandwidths. The one or more timed events are determined via performing modulo counting after the bit-shifting. Timing operations are performed at the determined timed events and the determined one or more timed events are refined, accordingly.
    • 耦合到公共系统时钟的移动设备在无线电帧中接收包括主同步序列(PSS)和辅同步序列(SSS)的信号。 基于相应的工作带宽为定时事件生成采样计数。 根据相应的工作带宽,以生成的采样计数的模样本计数来检测定时事件。 通过PSS同步确定的PSS符号定时与基于相应的工作带宽的生成的采样计数相对准。 基于对应的工作带宽,生成的采样计数相对于其他定时事件的对准PSS符号定时进行位移。 一个或多个定时事件通过在位移之后执行模计数来确定。 相应地,在确定的定时事件执行定时操作,并且确定所确定的一个或多个定时事件被改进。
    • 6. 发明授权
    • Method and system for using sign based synchronization sequences in a correlation process to reduce correlation complexity in an OFDM system
    • 在相关过程中使用基于符号的同步序列以减少OFDM系统中的相关复杂度的方法和系统
    • US08681730B2
    • 2014-03-25
    • US12500564
    • 2009-07-09
    • Francis SwartsMark Kent
    • Francis SwartsMark Kent
    • H04W4/00H04J3/00H04J3/06
    • H04J11/0073H04B1/7077H04L27/2655H04L27/2662H04L27/2671H04L27/2675H04L27/2684H04W56/0085
    • A mobile device receives a signal, from a base station, comprising a primary synchronization signal (PSS) and a secondary synchronization signal (SSS). The received PSS and SSS are used to acquire cell-specific parameters so as to ensure communicates between the mobile device and the base station. The mobile device correlates the received signal in time domain using signs of each of a plurality of correlation reference sequences (reference PSSs). The mobile device generates sign based correlation reference PSSs using signs of the corresponding reference PSSs, which are generated based on a variety of Zadoff-Chu sequences. The received PSS is detected based on the correlation. No multiplication operations are used in the correlation process. Symbol timing is identified according to the detected PSS. The mobile device uses the identified symbol timing to baseband process the received signal. The received signal is an OFDM signal received over a 3GPP LTE/E-UTRA air interface.
    • 移动设备从基站接收包括主同步信号(PSS)和辅同步信号(SSS)的信号。 接收的PSS和SSS用于获取小区特定参数,以确保移动设备与基站之间的通信。 移动设备使用多个相关参考序列(参考PSS)中的每一个的符号在时域中对接收的信号进行相关。 移动设备使用基于各种Zadoff-Chu序列生成的相应参考PSS的符号来生成基于符号的相关参考PSS。 基于相关性检测接收到的PSS。 在相关过程中不使用乘法运算。 根据检测到的PSS识别符号定时。 移动设备使用所识别的符号定时来对接收到的信号进行基带处理。 所接收的信号是通过3GPP LTE / E-UTRA空中接口接收的OFDM信号。
    • 9. 发明授权
    • Method and system for reducing the complexity of multi-frequency hypothesis testing using an iterative approach
    • 使用迭代法降低多频率假设检验复杂度的方法和系统
    • US08380151B2
    • 2013-02-19
    • US12721979
    • 2010-03-11
    • Francis SwartsMark Kent
    • Francis SwartsMark Kent
    • H04B1/00
    • H04B1/16H03J7/02
    • Aspects of a method and system for reducing the complexity of multi-frequency hypothesis testing using an iterative approach may include estimating a frequency offset of a received signal via a plurality of iterative frequency offset hypotheses tests. The iterative frequency offset hypotheses may be adjusted for each iteration. A correlation may be done between a primary synchronization signal (PSS), and one or more frequency offset versions of a received signal to control the adjustment of the iterative frequency offset hypotheses. A frequency of the received local oscillator signal may be adjusted based on the estimated frequency offset. One or more frequency offset version of the received signal may be generated via one or more multiplication, and the multiplication may be achieved via a multiplication signal corresponding to one or more frequency offsets. The frequency offset of the received signal may be estimated via the correlation.
    • 用于降低使用迭代方法的多频率假设检验的复杂度的方法和系统的方面可以包括通过多次迭代频率偏移假设测试来估计接收信号的频率偏移。 迭代频偏假设可以针对每个迭代进行调整。 可以在主同步信号(PSS)和接收信号的一个或多个频率偏移版本之间进行相关性,以控制迭代频率偏移假设的调整。 可以基于估计的频率偏移来调整接收到的本地振荡器信号的频率。 可以经由一个或多个乘法来生成接收信号的一个或多个频率偏移版本,并且可以经由与一个或多个频率偏移相对应的乘法信号来实现乘法。 可以经由相关来估计接收信号的频率偏移。