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    • 23. 发明授权
    • Method and apparatus for signal quality estimation
    • 用于信号质量估计的方法和装置
    • US08270534B2
    • 2012-09-18
    • US11816100
    • 2006-02-09
    • Timothy J. MoulsleyMatthew P. J. Baker
    • Timothy J. MoulsleyMatthew P. J. Baker
    • H04L27/00
    • H04L1/203
    • A receiver (13) of user equipment, UE, (10) of a Universal Mobile Telecommunications System, UMTS, network receives a digitally encoded radio signal over a downlink (11) from a base station (12). A Digital Signal Processor, DSP, (14) of the UE (10) estimates BER of data bits of power control commands received in the signal during an out of synchronisation procedure. More specifically, the DSP (14) samples the amplitude with which the data bits are received and determines a ratio of functions of one or more moments of the sampled amplitudes. The DSP (14) then compares the determined ratio to one or more values of BER for different ratios in a look-up table to estimate BER.
    • 通用移动通信系统(UMTS)网络的UE(10)的用户设备的接收机(13)通过来自基站(12)的下行链路(11)接收数字编码的无线电信号。 UE(10)的数字信号处理器DSP(14)估计在失步同步过程期间在信号中接收的功率控制命令的数据位的BER。 更具体地,DSP(14)对接收到数据位的振幅进行采样,并确定采样振幅的一个或多个力矩的函数比。 然后,DSP(14)将确定的比率与查询表中的不同比率的一个或多个BER值进行比较,以估计BER。
    • 24. 发明授权
    • Measurement of channel characteristics in a communication system
    • 通信系统中信道特性的测量
    • US07392014B2
    • 2008-06-24
    • US10518841
    • 2003-06-12
    • Matthew P. J. BakerTimothy J. Moulsley
    • Matthew P. J. BakerTimothy J. Moulsley
    • H04B17/00H04M11/00H04Q7/20
    • H04W52/286H04B17/24H04B17/309H04B17/382H04L1/0001H04L1/0026H04L1/20H04W24/10H04W52/143
    • A communication system comprises a downlink data channel for the transmission of data packets from a primary station to a secondary station and uplink and downlink control channels. The secondary station measures one or more characteristics of the data channel and issues a report to the primary station, which determines an operational parameter of the data channel in response to the report. The secondary station determines average channel characteristics over a measurement period. The length of the measurement period may be signalled by the primary station or determined directly by the secondary station. In one embodiment the selected period depends on the speed (V) of the secondary station. This is determined (604) by either station and tested to determine (606) whether it is outside the range for the current measurement period: if it is the period is reset (608).
    • 通信系统包括用于从主站向次站发送数据分组的下行链路数据信道以及上行链路和下行链路控制信道。 次站测量数据通道的一个或多个特性,并向主站发出报告,主站响应报告确定数据通道的操作参数。 次站在测量周期内确定平均通道特性。 测量周期的长度可以由主站发信号通知,或由次站直接确定。 在一个实施例中,所选择的周期取决于次站的速度(V)。 这由任一站确定(604)并进行测试以确定(606)是否在当前测量周期的范围之外:如果周期被重置(608)。
    • 28. 发明授权
    • Method for communicating in a MIMO context
    • 用于在MIMO上下文中通信的方法
    • US09008008B2
    • 2015-04-14
    • US12597013
    • 2008-04-28
    • Matthew P. J. BakerTimothy J. MoulsleyFilippo Tosato
    • Matthew P. J. BakerTimothy J. MoulsleyFilippo Tosato
    • H04W4/00H04L27/00H04B7/06H04B7/04
    • H04B7/0456H04B7/0417H04B7/0632H04B7/0634H04B7/0639H04L27/2628H04W16/28
    • The present invention relates to a method for communicating from a primary station with an array of transmit antennas to a secondary station on a downlink channel, said method comprising steps of, at the primary station, (a) configuring the downlink channel, step (a) being subdivided into steps of: 5 (a2) computing a precoding to be applied during a corresponding transmission from the primary station to the secondary station for each of an array of transmit antennas; (a3) applying a reversible transform to the precoding, thus ascertaining a set of precoding coefficients substantially representative of the precoding in a transform 10 domain; (a4) computing a set of parameters comprising at least one parameter, said parameter being substantially representative of the coefficients obtained at step (a3); (a5) signaling the set of parameters to the secondary station; 15 (b) transmitting data to the secondary station substantially according to the precoding computed at step (a2).
    • 本发明涉及一种用于从主站与发射天线阵列在下行链路信道上向次站进行通信的方法,所述方法包括以下步骤:在主站处,(a)配置下行链路信道,步骤(a )被细分为以下步骤:5(a2)计算在发射天线阵列中的每个发射天线从主站到次站的相应传输期间应用的预编码; (a3)将可逆变换应用于预编码,从而确定基本上代表变换10域中的预编码的一组预编码系数; (a4)计算包括至少一个参数的一组参数,所述参数基本上代表在步骤(a3)获得的系数; (a5)向该次要站发信号通知一组参数; 15(b)基本上按照步骤(a2)中计算的预编码将数据发送到次站。
    • 30. 发明授权
    • Method for signaling random access channels
    • 信令随机接入信道的方法
    • US08638734B2
    • 2014-01-28
    • US12739167
    • 2008-10-27
    • Matthew P. J. BakerTimothy J. Moulsley
    • Matthew P. J. BakerTimothy J. Moulsley
    • H04W4/00
    • H04W74/0833H04W74/002H04W74/0866
    • The invention provides a method for efficiently defining E-RACH resources at least partly with reference to R99 RACH resources. This is achieved such that very little additional signaling is required on the BCH. E-RACH resources may be efficiently defined by signaled or predetermined differences from the R99 RACH resources. Resources for each PRACH are broadcast using the BCH. However, some UEs are configured to use E-RACH, for example by means of higher-layer signaling. In one embodiment, the resources available for each E-RACH for the configured UEs are given by the same set of signatures but the scrambling code and sub-channels are different. In another embodiment, the resources available for each E-RACH for the configured UEs are given by the same set of scrambling codes, but the signatures and sub-channels are different. In a typical, but not exclusive embodiment, the invention is applied in UMTS WCDMA.
    • 本发明提供了一种用于至少部分地参考R99RACH资源有效地定义E-RACH资源的方法。 实现这一点,使得在BCH上需要非常少的附加信令。 可以通过与R99RACH资源的信号或预定的差异有效地定义E-RACH资源。 使用BCH广播每个PRACH的资源。 然而,一些UE被配置为使用E-RACH,例如通过更高层的信令。 在一个实施例中,针对配置的UE的每个E-RACH可用的资源由​​同一组签名给出,但是扰码和子信道是不同的。 在另一实施例中,用于配置的UE的每个E-RACH可用的资源由​​同一组扰码给出,但是签名和子信道是不同的。 在一个典型但非排他性的实施例中,本发明应用于UMTS WCDMA。