Systems, methods, and apparatuses for detecting digital television (DTV) communications signals
First Claim
1. A method for detecting a digital television (DTV) signal, comprising:
- modulating a received radio frequency (RF) signal downwards to generate a down-converted modulated signal at a lower intermediate frequency (IF) or baseband frequency;
digitizing the modulated signal to generate a digitized baseband signal;
retaining a real portion of the digitized baseband signal to generate a test signal;
performing an initial focusing of the test signal to generate a focused signal by at least modulating the test signal downwards by a modulation frequency to generate a modulated test signal, wherein the modulation frequency is based upon a specified middle cyclic frequency associated with a band of candidate pilot frequencies, wherein the focused signal is derived from one or both of filtering or decimating the modulated test signal;
performing a fine focusing on the focused signal to generate an output signal by;
collecting, from the focused signal, a sequence of samples spanning a time period less than or equal to a system sensing time requirement;
obtaining Discrete Fourier Transform (DFT) coefficients of the collected sequence of samples, where the sequence of DFT coefficients corresponds to the cyclostationarity present in the received RF signal at various cyclic frequencies;
determining a set of correlation energy estimates based upon the DFT coefficients;
determining a representative correlation energy estimate as a maximum or largest correlation energy estimate from the determined set of correlation energy estimates,normalizing the representative correlation energy estimate by a normalization factor, wherein the normalization factor is based upon the focused signal,wherein the normalized correlation energy estimate is used to determine whether a digital television (DTV) signal is present in the received RF signal.
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Abstract
A received RF signal is down-converted to a baseband or low-IF digitized signal in order to search for a pilot signal that indicates a presence of a DTV signal such as an ATSC DTV signal. The pilot signal characteristically resides in a fixed frequency range for all valid DTV signals and is extracted by processing the baseband or low-IF signal in multiple stages. The first stage reduces signal information to that pertaining to the frequency band covering all valid pilot frequencies, thereby reducing the sampling rate and computational complexity of subsequent operations. A second stage operates on this reduced rate signal to focus on a series of particular pilot frequencies for interrogation. For each such candidate frequency, the cyclostationarity of the signal is measured and tested for statistical significance relative to the background energy to yield an effective test that is invariant with respect to background noise level.
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Citations
20 Claims
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1. A method for detecting a digital television (DTV) signal, comprising:
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modulating a received radio frequency (RF) signal downwards to generate a down-converted modulated signal at a lower intermediate frequency (IF) or baseband frequency; digitizing the modulated signal to generate a digitized baseband signal; retaining a real portion of the digitized baseband signal to generate a test signal; performing an initial focusing of the test signal to generate a focused signal by at least modulating the test signal downwards by a modulation frequency to generate a modulated test signal, wherein the modulation frequency is based upon a specified middle cyclic frequency associated with a band of candidate pilot frequencies, wherein the focused signal is derived from one or both of filtering or decimating the modulated test signal; performing a fine focusing on the focused signal to generate an output signal by; collecting, from the focused signal, a sequence of samples spanning a time period less than or equal to a system sensing time requirement; obtaining Discrete Fourier Transform (DFT) coefficients of the collected sequence of samples, where the sequence of DFT coefficients corresponds to the cyclostationarity present in the received RF signal at various cyclic frequencies; determining a set of correlation energy estimates based upon the DFT coefficients; determining a representative correlation energy estimate as a maximum or largest correlation energy estimate from the determined set of correlation energy estimates, normalizing the representative correlation energy estimate by a normalization factor, wherein the normalization factor is based upon the focused signal, wherein the normalized correlation energy estimate is used to determine whether a digital television (DTV) signal is present in the received RF signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for detecting a digital television (DTV) signal, comprising:
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a first modulator that modulates a received radio frequency (RF) signal downwards to generate a down-converted modulated signal at a lower intermediate frequency (IF) or baseband frequency; an analog-to-digital converter that digitizes the modulated signal to generate a digitized baseband signal; a real-operator block that retains a real portion of the digitized baseband signal to generate a test signal; an initial focusing stage, wherein the initial focusing stage generates a focused signal from the test signal by at least modulating, by a second modulator, the test signal downwards by a modulation frequency to generate a modulated test signal, wherein the modulation frequency is based upon a specified middle cyclic frequency associated with a band of candidate pilot frequencies, wherein the focused signal is derived from one or both of filtering or decimating the modulated test signal by a respective filter or decimator; a fine focusing stage, wherein the fine focusing stage generates an output signal from the focused signal by collecting, from the focused signal, a sequence of samples spanning a time period less than or equal to a system sensing time requirement, and obtaining Discrete Fourier Transform (DFT) coefficients of the collected sequence of samples via a DFT block, where the sequence of DFT coefficients corresponds to the cyclostationarity present in the received RF signal at various cyclic frequencies; one or more magnitude blocks that determine a set of correlation energy estimates based upon the DFT coefficients; a max operator block that determines a representative correlation energy estimate as a maximum or largest correlation energy estimate from the determined set of correlation energy estimates, wherein the representative correlation energy estimate is normalized by a normalization factor, wherein the normalization factor is based upon the focused signal, wherein the normalized correlation energy estimate is used to determine whether a digital television (DTV) signal is present in the received RF signal. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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Specification