会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 3. 发明申请
    • Wireless communication system, wireless communication unit and method of synchronisation
    • 无线通信系统,无线通信单元和同步方法
    • US20040235506A1
    • 2004-11-25
    • US10484224
    • 2004-06-24
    • Norbert RoettgerKlaus Pai
    • H04B007/00H04Q007/00H04B007/005H04B007/01H04B007/015H04B015/00
    • H04B7/2606H04B7/155H04W56/001H04W56/005H04W92/10
    • A method of synchronising a wireless communication unit in a communication system, the method comprising at said wireless communication unit the steps of: monitoring transmissions from a communication system and processing (400) frequency and/or timing information from the communication system. The method further includes the steps of transmitting (404) frequency and/or timing information by said wireless communication unit; receiving and processing (406) said frequency and/or timing information transmitted by said wireless communication unit at a receiving portion of said wireless communication unit. The wireless communication unit then compares frequency and/or timing information transmitted from the communication system to that transmitted by said wireless communication unit; and synchronises said wireless communication unit if said comparison step does not yield a match. A wireless communication unit and a communication system are also provided.
    • 一种在通信系统中同步无线通信单元的方法,所述方法包括在所述无线通信单元处的步骤:监视来自通信系统的传输并处理(400)来自通信系统的频率和/或定时信息。 该方法还包括以下步骤:通过所述无线通信单元发送(404)频率和/或定时信息; 在所述无线通信单元的接收部分接收和处理(406)由所述无线通信单元发送的所述频率和/或定时信息。 然后,无线通信单元将从通信系统发送的频率和/或定时信息与由所述无线通信单元发送的频率和/或定时信息进行比较; 并且如果所述比较步骤不产生匹配,则使所述无线通信单元同步。 还提供无线通信单元和通信系统。
    • 4. 发明申请
    • Mixed domain cancellation
    • 混合域名取消
    • US20040213354A1
    • 2004-10-28
    • US10424424
    • 2003-04-28
    • William W. JonesGeorge A. ZimmermanChristopher Jude Pagnanelli
    • H04B015/00H04B001/38
    • H04B3/32
    • A method and apparatus for reducing crosstalk in a multi-channel communication system is disclosed. In one embodiment, outgoing signals in a multi-channel environment are manipulated into a transform domain, such as the frequency domain. Thereafter, the signals may be combined and modified based on a weighting variable to create a cancellation signal. Combined processing greatly reduces system complexity and increases processing speed. After processing in the transform domain, the cancellation signal undergoes further processing to return the cancellation signal into the time domain. The cancellation signal may then be combined with received signals to cancel crosstalk or echo. A method and apparatus for crosstalk cancellation in the analog domain and digital domain are also disclosed. Cancellation at least partially in the analog domain reduces the dynamic range requirements for digital to analog converters within the front-end processing system of a receiver and thereby reduces clipping and increases operating speed.
    • 公开了一种用于减少多声道通信系统中的串扰的方法和装置。 在一个实施例中,多信道环境中的输出信号被操纵成变换域,例如频域。 此后,可以基于加权变量组合和修改信号以产生消除信号。 组合处理大大降低了系统复杂度并提高了处理速度。 在变换域中处理之后,消除信号进行进一步的处理,以将取消信号返回到时域。 然后可以将消除信号与接收的信号组合以消除串扰或回波。 还公开了在模拟域和数字域中用于串扰消除的方法和装置。 至少部分地在模拟域中的取消减少了接收机的前端处理系统内的数模转换器的动态范围要求,从而减少了削波并提高了操作速度。
    • 6. 发明申请
    • Configurable multi-band RF transceiver with a cascaded frequency conversion scheme
    • 具有级联频率转换方案的可配置多频RF收发器
    • US20040204036A1
    • 2004-10-14
    • US10289267
    • 2002-11-05
    • Fodus Communications, Inc.
    • Steve S. Yang
    • H04B001/26H04B015/00H04M001/00H04B001/38
    • H04B1/403
    • A configurable dual-band RF transceiver with a cascaded frequency conversion scheme (DBXVR) is disclosed for the processing of any selected RF channel signal specified by the open standard IEEE 802.11 a/b/g for Wireless LAN. The DBXVR comprises two switchably connected antennae for receiving and transmitting any selected RF channel signal and two subsets of signal processing hardware. The first signal processing subset is designed to perform all related frequency conversion, signal filtering and amplification between the b/g-band and its corresponding Baseband Inphase (I) and Quadrature (Q) signals. The second signal processing subset is designed to perform all related frequency conversion, signal filtering and amplification between the a-band, located at a disjointed and much higher frequency range than the b/g-band, and its corresponding b/g-band frequency for an ultimate, cascaded second signal processing into the Baseband I and Q signals using essentially the same hardware from the first signal processing subset.
    • 公开了一种具有级联频率转换方案(DBXVR)的可配置双频RF收发器,用于处理由用于无线LAN的开放标准IEEE 802.11a / b / g指定的任何选定的RF信道信号。 DBXVR包括两个可切换连接的天线,用于接收和发送任何所选的RF信道信号和两个信号处理硬件子集。 第一信号处理子集被设计为执行b / g频带与其对应的基带同相(I)和正交(Q)信号之间的所有相关频率转换,信号滤波和放大。 第二信号处理子集被设计为执行位于与b / g频带不相交和高得多的频率范围的a频带之间的所有相关频率转换,信号滤波和放大及其对应的b / g频带频率 用于使用与第一信号处理子集基本上相同的硬件对基带I和Q信号进行最终级联的第二信号处理。
    • 7. 发明申请
    • Systems and Methods for Interference Mitigation With Respect to Periodic Interferers in Short-Range Wireless Applications
    • 针对短距离无线应用中的周期干扰器进行干扰减轻的系统和方法
    • US20040203474A1
    • 2004-10-14
    • US10248434
    • 2003-01-20
    • COGNIO, INC.
    • Karl A. MillerDavid S. KloperNeil R. Diener
    • H04B001/10H04B015/00H04B001/00H04B007/00
    • H04L1/0001H04B1/713
    • Several techniques are provided for use by wireless devices to avoid interference with signals that are of a periodic or quasi-periodic nature that may operate in the same frequency band and proximity. In some cases, the periodic signals are detected and their timing is determined so as to predict when a next interfering event will occur. Devices that are affected by the periodic signal (such as an affected device with information to be transmitted or devices that have information to be transmitted to the affected device) are controlled to prevent transmissions during the interfering intervals. In addition, a process is provided to dynamically fragment a transmit frame of information to transmit part of the information before the interfering interval and the remainder of the information after the interfering interval, rather than waiting to transmit the entire frame until after the interfering interval. Moreover, techniques are provided to correct for clock drift between the periodic signal and a device affected by the periodic signal, as well as for clock drift between a device affected by the periodic signal and other devices that communicate with that device. These techniques prevent interference with periodic signals and in so doing, improve the quality of service of the communication link for both the interfering devices and the other devices.
    • 提供了若干技术以供无线设备使用以避免对可能在相同频带和接近度中操作的具有周期性或准周期性质的信号的干扰。 在某些情况下,检测周期信号并确定其定时,以便预测下一个干扰事件将何时发生。 被周期性信号影响的设备(例如具有要发送的信息的受影响设备或具有要发送到受影响设备的信息的设备)被控制以防止在干扰间隔期间的传输。 此外,提供了一种处理,以动态地分割信息的发送帧,以在干扰间隔之前的信息的间隔和信息的干扰间隔之后传送信息的一部分,而不是等待发送整个帧直到干扰间隔之后。 此外,提供技术来校正周期性信号和受周期信号影响的器件之间的时钟漂移,以及在受周期信号影响的器件与与该器件通信的其他器件之间的时钟漂移。 这些技术防止对周期性信号的干扰,并且这样做可以提高干扰设备和其他设备的通信链路的服务质量。