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    • 1. 发明授权
    • Process for synchronization
    • 同步过程
    • US07092456B2
    • 2006-08-15
    • US09865484
    • 2001-05-29
    • Johannes SteffensHagen Eckert
    • Johannes SteffensHagen Eckert
    • G21D7/00G21C23/00G21C1/04H04L7/00
    • H04L7/042H04L27/0008
    • A process for synchronization of an input signal (S) involves demodulating (5a) the input signal (S) according to a particular demodulation method (AM) using a particular signal parameter for creation of a demodulated input signal (SAM); correlating (6a) the demodulated input signal (SAM) with a comparison signal (f (AM,Signal)) which depends on the demodulation method (AM) to determine a time offset (τ) between the demodulated input signal (SAM) and the comparison signal (f (AM,Signal)); and time displacing, or shifting, the input signal through the time offset (τ) calculated from the correlation.
    • 用于同步输入信号(S)的过程涉及使用特定信号参数根据特定解调方法(AM)对输入信号(S)进行解调(5a),以产生解调输入信号(S SUB) ); 将解调输入信号(S SUB AM<>)与依赖于解调方法(AM)的比较信号(f(AM,Signal))相关(6a)以确定解调输入信号 解调输入信号(S SUB AM)和比较信号(f(AM,Signal)); 以及通过从相关性计算的时间偏移(τ)来移位或移位输入信号。
    • 2. 发明申请
    • METHOD AND SYSTEM FOR THE DETECTION AND/OR REMOVAL OF SINUSOIDAL INTERFERENCE SIGNALS IN A NOISE SIGNAL
    • 用于在噪声信号中检测和/或去除SINUSOIDAL干扰信号的方法和系统
    • US20090259439A1
    • 2009-10-15
    • US12430377
    • 2009-04-27
    • Gregor FeldhausHagen Eckert
    • Gregor FeldhausHagen Eckert
    • G06F15/00
    • H04L25/0206G01R23/16G01R29/26H04B1/1027
    • A method for removing sinusoidal interference signals from a noise signal. The method includes transforming a measured signal (x(t), x(μ·Δt)), which is composed of a limited number of sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(ωkμ·Δt+φk)) and a white noise signal (w(t), w(μ·Δt)), into a subspace containing noise components and a subspace containing interference-signal components, and forming the spectrum of only the noise signal using the subspace containing the noise components. The entire frequency range is split into several frequency bands (ν), in which each measured signal (x(t), x(μ·Δt)) consists of a limited number (p(ν)) of sinusoidal interference signals and a white noise signal.
    • 一种从噪声信号中去除正弦干扰信号的方法。 该方法包括将由有限数量的正弦干涉信号(Ak.ej(omegakt + phik),Ak.ej(omegakmu.Deltat +))组成的测量信号(x(t),x(μDelt))变换, phik))和白噪声信号(w(t),w(μDelt))转换成包含噪声分量的子空间和包含干扰信号分量的子空间,并且仅使用包含噪声信号的子空间的子空间形成频谱 噪音成分。 整个频率范围分为几个频带(nu),其中每个测量信号(x(t),x(μDeltat))由有限数量(p(nu))的正弦干扰信号和白色 噪声信号。
    • 3. 发明授权
    • Method and device for determining a frequency mask for a frequency spectrum
    • 用于确定频谱的频率掩模的方法和装置
    • US08442789B2
    • 2013-05-14
    • US12967881
    • 2010-12-14
    • Hagen EckertJochen Pliquett
    • Hagen EckertJochen Pliquett
    • G01R23/16G06F19/00
    • G01R23/18
    • A method and a device for determining a frequency mask disposed above or below a frequency spectrum of a detected signal determines every individual ordinate value of a first envelope curve disposed completely above or below the frequency spectrum as the maximum value or minimum value of a given number of respectively adjacent ordinate values of the frequency spectrum linked to a window function. Following this, each individual ordinate value of a second envelope curve disposed completely above or below the frequency spectrum and completely above or below the first envelope curve is determined as the maximum value or minimum value of a given number of respectively adjacent ordinate values of the frequency spectrum linked to a window function. Finally, a minimum number of ordinate values of the frequency mask from ordinate values of the first and/or second envelope curve disposed completely between the first and second envelope curve is determined, wherein in each case two successive ordinate values of the frequency mask with a maximum horizontal spacing distance within the first and second envelope curve can be reached in a linear manner relative to one another.
    • 用于确定设置在检测信号的频谱之上或之下的频率掩模的方法和装置确定完全在频谱上方或下方布置的第一包络线的每个单独纵坐标值作为给定数字的最大值或最小值 分别与链接到窗口函数的频谱的相邻纵坐标值。 此后,将完全位于频谱上方并且完全高于或低于第一包络线的第二包络线的每个纵坐标值确定为频率的相应相邻纵坐标值的给定数量的最大值或最小值 频谱链接到窗口函数。 最后,确定完全设置在第一和第二包络线之间的第一和/或第二包络线的纵坐标值的频率掩模的最小数量的纵坐标值,其中在每种情况下,频率掩模的两个连续的纵坐标值与 可以以相对于彼此的线性方式达到第一和第二包络线中的最大水平间隔距离。
    • 4. 发明申请
    • Method and Device for Determining a Frequency Mask for a Frequency Spectrum
    • 用于确定频谱的频谱的方法和装置
    • US20110153247A1
    • 2011-06-23
    • US12967881
    • 2010-12-14
    • Hagen EckertJochen Pliquett
    • Hagen EckertJochen Pliquett
    • G06F19/00G01R23/16
    • G01R23/18
    • A method and a device for determining a frequency mask disposed above or below a frequency spectrum of a detected signal determines every individual ordinate value of a first envelope curve disposed completely above or below the frequency spectrum as the maximum value or minimum value of a given number of respectively adjacent ordinate values of the frequency spectrum linked to a window function. Following this, each individual ordinate value of a second envelope curve disposed completely above or below the frequency spectrum and completely above or below the first envelope curve is determined as the maximum value or minimum value of a given number of respectively adjacent ordinate values of the frequency spectrum linked to a window function. Finally, a minimum number of ordinate values of the frequency mask from ordinate values of the first and/or second envelope curve disposed completely between the first and second envelope curve is determined, wherein in each case two successive ordinate values of the frequency mask with a maximum horizontal spacing distance within the first and second envelope curve can be reached in a linear manner relative to one another.
    • 用于确定设置在检测信号的频谱之上或之下的频率掩模的方法和装置确定完全在频谱上方或下方布置的第一包络线的每个单独纵坐标值作为给定数字的最大值或最小值 分别与链接到窗口函数的频谱的相邻纵坐标值。 此后,将完全位于频谱上方并且完全高于或低于第一包络线的第二包络线的每个纵坐标值确定为频率的相应相邻纵坐标值的给定数量的最大值或最小值 频谱链接到窗口函数。 最后,确定完全设置在第一和第二包络线之间的第一和/或第二包络线的纵坐标值的频率掩模的最小数量的纵坐标值,其中在每种情况下,频率掩模的两个连续纵坐标值与 可以以相对于彼此的线性方式达到第一和第二包络线中的最大水平间隔距离。
    • 5. 发明授权
    • Method and system for the detection and/or removal of sinusoidal interference signals in a noise signal
    • 用于在噪声信号中检测和/或去除正弦干扰信号的方法和系统
    • US07840384B2
    • 2010-11-23
    • US11333772
    • 2006-01-17
    • Gregor FeldhausHagen Eckert
    • Gregor FeldhausHagen Eckert
    • H04B15/00
    • H04L25/0206G01R23/16G01R29/26H04B1/1027
    • A method and a system for the detection and/or removal of sinusoidal interference signals in/from a noise signal transforms a measured signal (x(t), x(μ·Δt)) composed of a limited number of sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(μ·ωkΔt+φk)) and a white noise signal (w(t), w(μ·Δt)) into a subspace containing its white noise components and a subspace containing its interference signal components. Following this, the individual sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(μ·ωkΔt+φk)) are determined using an estimation method within the subspace containing the noise components. The entire frequency range is split into several frequency bands (ν), in which the measured signal (x(t), x(μ·Δt)) consists of a limited number (p(ν)) of sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(μ·ωkΔt+φk)) and a white noise signal (w(t), w(μ·Δt)).
    • 用于在噪声信号中检测和/或去除正弦干扰信号的方法和系统将由有限数量的正弦干扰信号组成的测量信号(x(t),x(μ·Dgr; t)) (w·t),w(μ·dG·t))和白噪声信号(w(t),w(μ·&Dgr; t))变换成子空间(Ak·ej(ωkt+&phgr; k),Ak·ej(μ·ωk&Dgr; t +&phgr; k) 包含其白噪声分量和包含其干扰信号分量的子空间。 接下来,使用包含噪声分量的子空间内的估计方法来确定各个正弦干扰信号(Ak·ej(ωkt+&phgr; k),Ak·ej(μ·ωk&Dgr; t +&phgr; k))。 整个频率范围分为几个频带(&ngr;),其中测量信号(x(t),x(μ·&Dgr; t))由有限数量(p(&ngr))的正弦干扰 信号(Ak·ej(ωkt+&phgr; k),Ak·ej(μ·ωk&Dgr; t +&phgr; k))和白噪声信号(w(t),w(μ·&Dgr; t))。
    • 6. 发明授权
    • Method and device for performing spectrum analysis of a wanted signal or noise signal
    • 用于对有用信号或噪声信号进行频谱分析的方法和装置
    • US08768638B2
    • 2014-07-01
    • US11663939
    • 2005-08-26
    • Gregor FeldhausHagen Eckert
    • Gregor FeldhausHagen Eckert
    • G01R23/16G06F17/14
    • G01R23/167G01R23/18
    • A method and device for performing spectrum analysis of a signal in a plurality of frequency bands with respective different frequency resolutions. The method includes a data acquisition step and a subsequent data evaluation step for every frequency band. The data acquisition step and the subsequent data evaluation step proceeds cyclically and continuously for every frequency band of the spectrum analysis. The corresponding device for performing spectrum analysis of a signal cyclically stores a scanning sequence of the signal for every frequency band in one circular buffer each. A discrete Fourier transformer uses the cyclically stored scanning sequences to calculate the spectral values pertaining to the respective frequency band.
    • 一种用于对具有不同频率分辨率的多个频带中的信号进行频谱分析的方法和装置。 该方法包括用于每个频带的数据获取步骤和随后的数据评估步骤。 对于频谱分析的每个频带,数据采集步骤和随后的数据评估步骤循环地且连续地进行。 用于执行信号的频谱分析的相应装置将每个频带的信号的扫描序列循环地存储在一个循环缓冲器中。 离散傅里叶变换器使用循环存储的扫描序列来计算与相应频带有关的频谱值。
    • 7. 发明授权
    • Method and system for the detection and/or removal of sinusoidal interference signals in a noise signal
    • 用于在噪声信号中检测和/或去除正弦干扰信号的方法和系统
    • US07840385B2
    • 2010-11-23
    • US11966366
    • 2007-12-28
    • Gregor FeldhausHagen Eckert
    • Gregor FeldhausHagen Eckert
    • H04B15/00
    • H04L25/0206G01R23/16G01R29/26H04B1/1027
    • A system for the identification of sinusoidal interference signals from a noise signal is provided. The system includes a unit for the estimation (51, 52, . . . , 5NFFT) of an autocorrelation matrix ({circumflex over (R)}v) of a measured signal (x(t), x(μ·Δt)), composed from the sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(ωkμ·Δt+φk)) and the noise signal (w(t), w(μ·Δt)), a unit (81, 82, . . . , 8NFFT) for frequency estimation, and a unit (91, 92, . . . , 9NFFT) for power-level determination of the spectral lines associated with the sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(ωkμ·Δt+φk)) A Fast Fourier Transform filter bank (1) is additionally provided for the generation of several frequency bands (v) for the measured signal (x(t), x(μ·Δt)), composed of the sinusoidal interference signals (Ak·ej(ωkt+φk), Ak·ej(ωkμ·Δt+φk)) and the noise signal (w(t), w(μ·Δt)).
    • 提供了一种用于从噪声信号识别正弦干扰信号的系统。 该系统包括用于估计(51,52,...,5NFFT)的测量信号(x(t),x(μ·&Dgr; t)的自相关矩阵((R)} v) )),由正弦干扰信号(Ak·ej(ωkt+&phgr; k)),Ak·ej(ωkμ·&Dgr; t +&phgr; k))和噪声信号(w(t),w &Dgr; t)),用于频率估计的单元(81,82,...,8NFFT)以及用于与正弦曲线相关联的谱线的功率电平确定的单元(91,92,...,9NFFT) 干扰信号(Ak·ej(ωkt+&phgr; k),Ak·ej(ωkμ·&Dgr; t +&phgr; k))另外提供快速傅里叶变换滤波器组(1),用于产生几个频带 )由正弦干扰信号(Ak·ej(ωkt+&phgr; k)),Ak·ej(ωkμ·&Dgr; t +&phgr)组成的测量信号(x(t),x(μ·&Dgr; t) ; k))和噪声信号(w(t),w(μ·&Dgr; t))。
    • 9. 发明申请
    • Method and Device for Performing Spectrum Analysis of a Wanted Signal or Noise Signal
    • 用于进行信号或噪声信号频谱分析的方法和装置
    • US20070250558A1
    • 2007-10-25
    • US11663939
    • 2005-08-26
    • Gregor FeldhausHagen Eckert
    • Gregor FeldhausHagen Eckert
    • G06F17/14
    • G01R23/167G01R23/18
    • A method and device for performing spectrum analysis of a signal in a plurality of frequency bands with respective different frequency resolutions. Said method comprises a data acquisition step and a subsequent data evaluation step for every frequency band. The data acquisition step and the subsequent data evaluation step proceeds cyclically and continuously for every frequency band of the spectrum analysis. The corresponding device for performing spectrum analysis of a signal cyclically stores a scanning sequence o the signal for every frequency band in one circular buffer each. A discrete Fourier transformer uses the cyclically stored scanning sequences to calculate the spectral values pertaining to the respective frequency band.
    • 一种用于对具有不同频率分辨率的多个频带中的信号进行频谱分析的方法和装置。 所述方法包括用于每个频带的数据获取步骤和随后的数据评估步骤。 对于频谱分析的每个频带,数据采集步骤和随后的数据评估步骤循环地且连续地进行。 用于执行信号的频谱分析的相应装置将每个频带的信号的扫描序列循环存储在一个循环缓冲器中。 离散傅里叶变换器使用循环存储的扫描序列来计算与相应频带有关的频谱值。