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    • 2. 发明授权
    • Time-reversal-based communication
    • 基于时间反转的沟通
    • US08195112B1
    • 2012-06-05
    • US12481884
    • 2009-06-10
    • Hongyuan ZhangArul Durai Murugan PalaniveluRohit U. NabarSongping WuHui-Ling Lou
    • Hongyuan ZhangArul Durai Murugan PalaniveluRohit U. NabarSongping WuHui-Ling Lou
    • H01Q11/12H04B1/04
    • H04W52/225H04W52/226
    • Time-reversal filtering may be used to temporally focus a signal to be transmitted. Power can be reduced at the transmitter so that the temporally focused signal is within spectral mask requirements. In one embodiment, the effect of the time-reversal filter on the power spectral density for a particular transmitted signal can be calculated and the predicted power spectral density can be compared to the permitted spectral mask to identify violations, if any, of the spectral mask. The transmitter power can then be reduced by the amount of the violation. In another embodiment, a set of different time-reversal filters that meet the spectral mask requirements can be provided in advance, and the most appropriate filter—e.g., the one with the best signal-to-noise ratio for the particular signal—can be chosen from the set of filters.
    • 可以使用时间反转滤波来暂时聚焦待传输的信号。 在发射机处可以降低功率,使得时间聚焦的信号在频谱掩模要求之内。 在一个实施例中,可以计算时间反转滤波器对于特定发射信号的功率谱密度的影响,并且可以将预测的功率谱密度与允许的光谱掩模进行比较以识别光谱掩模(如果有的话) 。 然后可以将发射机功率减少违规量。 在另一个实施例中,可以预先提供满足频谱掩模要求的一组不同的时间反转滤波器,并且最合适的滤波器(例如,对于特定信号具有最佳信噪比的滤波器)可以是 从一组过滤器中选择。
    • 7. 发明授权
    • Physical layer frame format design for wideband wireless communications systems
    • 宽带无线通信系统的物理层帧格式设计
    • US08358668B2
    • 2013-01-22
    • US12410883
    • 2009-03-25
    • Hongyuan ZhangRohit U. NabarArul Durai Murugan PalaniveluHui-Ling LouSongping Wu
    • Hongyuan ZhangRohit U. NabarArul Durai Murugan PalaniveluHui-Ling LouSongping Wu
    • H04J3/16
    • H04L27/14H04L1/0025H04L5/0007H04L5/0092H04L27/0008H04L27/0012H04L27/2602
    • Systems and methods are provided for processing a payload portion of a received signal in a single carrier mode or a multiple carrier mode using a wireless channel receiver based on a portion of the received signal, where a signaling portion of the received signal is a single carrier signal. A single carrier signaling portion is received, and whether the payload portion of the signal is a single carrier signal or a multiple carrier signal is detected from the received single carrier signaling portion. The payload portion of the received signal is demodulated in a single carrier mode if the detecting determines that the payload portion of the received signal is a single carrier signal, and the payload portion of the received signal is demodulated in a multiple carrier mode if the detecting determines that the payload portion of the received signal is a multiple carrier signal. Data from the demodulated payload portion of the received signal is stored in a computer-readable memory.
    • 提供了系统和方法,用于基于接收信号的一部分,使用无线信道接收机以单载波模式或多载波模式处理接收信号的有效载荷部分,其中接收信号的信令部分是单载波 信号。 接收单载波信令部分,以及信号的有效载荷部分是单载波信号还是从所接收的单载波信令部分检测多载波信号。 如果检测确定接收信号的有效载荷部分是单载波信号,则以单载波模式解调接收信号的有效载荷部分,并且如果检测到接收信号的有效载荷部分以多载波模式被解调 确定接收信号的有效载荷部分是多载波信号。 来自接收信号的解调有效载荷部分的数据被存储在计算机可读存储器中。
    • 8. 发明申请
    • PHYSICAL LAYER DATA UNIT FORMAT
    • 物理层数据单元格式
    • US20120207192A1
    • 2012-08-16
    • US13453609
    • 2012-04-23
    • Hongyuan ZhangSongping WuHui-Ling LouRohit U. Nabar
    • Hongyuan ZhangSongping WuHui-Ling LouRohit U. Nabar
    • H04B1/713
    • H04L69/22H04J11/00H04J13/102H04L5/0048H04L27/2613
    • In a wireless communication system wherein communication devices exchange information utilizing data units conforming to a first format, a method for generating a physical layer (PHY) data unit conforming to a second format and used to transmit PHY information includes generating a first sequence u of a channel estimation field (CEF) of the PHY data unit. The first sequence u of the CEF includes complementary Golay sequences a and b and is spread with a first cover code. The method also includes generating a second sequence v of the CEF. The second sequence v follows the first sequence u, includes the complementary Golay sequences a and b, and is spread with a second cover code different than the first cover code. The method also includes generating PHY information elements of the PHY data unit. The PHY information elements are not specified by the first format.
    • 在其中通信设备使用符合第一格式的数据单元交换信息的无线通信系统中,用于产生符合第二格式并用于发送PHY信息的物理层(PHY)数据单元的方法包括生成第一序列u PHY数据单元的信道估计字段(CEF)。 CEF的第一个序列u包括互补的Golay序列a和b,并且用第一封面码扩展。 该方法还包括生成CEF的第二序列v。 第二序列v遵循第一序列u,包括互补Golay序列a和b,并用与第一覆盖码不同的第二覆盖码进行扩展。 该方法还包括生成PHY数据单元的PHY信息元素。 PHY信息元素不是由第一格式指定的。
    • 9. 发明申请
    • PHYSICAL LAYER DATA UNIT FORMAT
    • 物理层数据单元格式
    • US20120201276A1
    • 2012-08-09
    • US13448847
    • 2012-04-17
    • Hongyuan ZhangSongping WuHui-Ling LouRohit U. Nabar
    • Hongyuan ZhangSongping WuHui-Ling LouRohit U. Nabar
    • H04B1/00
    • H04L69/22H04J11/00H04J13/102H04L5/0048H04L27/2613
    • In a wireless communication system in which communication devices exchange information utilizing data units that conform to a first format, wherein the first format includes a short training field (STF) spread with a first spread code, a method for generating a physical layer (PHY) data unit that conforms to a second format includes generating a first portion of the PHY data unit to indicate the PHY data unit conforms to the second format. The first portion of the PHY data unit includes an STF spread with a second spread code different than the first spread code. The method also includes generating a second portion of the PHY data unit according to the second format. The second portion of the PHY data unit includes PHY information elements not specified by the first format.
    • 在其中通信设备利用符合第一格式的数据单元来交换信息的无线通信系统中,其中所述第一格式包括利用第一扩展码扩展的短训练场(STF),用于生成物理层(PHY) 符合第二格式的数据单元包括生成PHY数据单元的第一部分以指示PHY数据单元符合第二格式。 PHY数据单元的第一部分包括具有与第一扩展码不同的第二扩展码扩展的STF。 该方法还包括根据第二格式生成PHY数据单元的第二部分。 PHY数据单元的第二部分包括未被第一格式指定的PHY信息元素。