Method for improved line of sight signal detection using time/frequency analysis
First Claim
1. A method comprising:
- receiving an incoming signal comprising at least one multipath component of a signal transmitted by a wireless terminal in an RF environment;
performing a time/frequency analysis on the incoming signal, including comparing a set of waveforms corresponding to frequency components of the incoming signal to a set of waveforms corresponding to expected frequency components of the transmitted signal, to identify a time-of-arrival of a line-of-sight component of the incoming signal; and
identifying a first instant in time at which said set of waveforms corresponding to frequency components of the incoming signal substantially match said set of waveforms corresponding to frequency components of the signal transmitted by the wireless terminal, said first identified instant in time thereby being the time-of-arrival of the line-of-sight component of the incoming signal, wherein said set of waveforms corresponding to frequency components of the incoming signal substantially matches said set of waveforms corresponding to frequency components of the signal transmitted by the wireless terminal when a number of matching corresponding waveforms from the two sets meets or exceeds a threshold.
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Abstract
The time-of-arrival of the line-of-sight component of a received, or incoming, signal is determined by performing a time/frequency analysis of the incoming signal. The term time/frequency analysis refers to an analysis of the frequency components (i.e. the frequency make-up) of the incoming signal at given instants in time. For example, one form of time/frequency analysis according to the present invention is to compare the frequency make-up of the received signal to the frequency make-up of the transmitted signal. Those points in time in which the frequency make-up of the received signal matches the frequency make-up of the transmitted signal are the instants in time at which a multipath component of the transmitted signal is received. In such a time/frequency analysis, the first-identified component, in time, is assumed to be the line-of-sight component of the transmitted signal.
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Citations
13 Claims
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1. A method comprising:
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receiving an incoming signal comprising at least one multipath component of a signal transmitted by a wireless terminal in an RF environment;
performing a time/frequency analysis on the incoming signal, including comparing a set of waveforms corresponding to frequency components of the incoming signal to a set of waveforms corresponding to expected frequency components of the transmitted signal, to identify a time-of-arrival of a line-of-sight component of the incoming signal; and
identifying a first instant in time at which said set of waveforms corresponding to frequency components of the incoming signal substantially match said set of waveforms corresponding to frequency components of the signal transmitted by the wireless terminal, said first identified instant in time thereby being the time-of-arrival of the line-of-sight component of the incoming signal, wherein said set of waveforms corresponding to frequency components of the incoming signal substantially matches said set of waveforms corresponding to frequency components of the signal transmitted by the wireless terminal when a number of matching corresponding waveforms from the two sets meets or exceeds a threshold. - View Dependent Claims (2, 3, 4, 5, 6, 7)
generating the set of waveform corresponding to frequency components from the incoming signal.
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6. The method of claim 5, wherein the generating step includes passing the incoming signal through a plurality of linear filters.
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7. The method of claim 5, wherein the waveforms corresponding to frequency components of the incoming signal and the waveform corresponding to expected frequency components of the transmitted signal are wavelets.
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8. A method comprising:
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receiving an incoming signal comprising at least one multipath component of a signal transmitted by a wireless terminal through an RF environment;
decomposing the incoming signal into a set of decomposed signals, which when superposed constitute the incoming signal;
comparing the set of decomposed signals to a set of expected decomposed signals at instants in time; and
identifying a time-of-arrival of a line-of-sight component of the incoming signal from the comparison, wherein the identifying step includes determining a first instant in time at which the set of decomposed signals substantially match the set of expected decomposed signals, the first instant in time being the time-of-arrival of the line-of-sight component of the incoming signal, wherein the set of decomposed signals substantially match the set of expected decomposed signals when a number of matching corresponding decomposed signals from the two sets meets or exceeds a threshold. - View Dependent Claims (9, 10, 11, 12)
adjusting said identified time-of-arrival of the line-of-sight component of the incoming signal by an amount based on the value of a parameter that characterizes the scattering hostility in the RF environment through which said incoming signal traveled. -
10. The method of claim 8, wherein the decomposing step includes
passing the incoming signal through a plurality of linear filters. -
11. The method of claim 8, wherein the set of decomposed signals is a wavelet representation of the incoming signal.
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12. The method of claim 8, wherein the set of expected decomposed signals is a wavelet representation of the signal transmitted by the wireless terminal.
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13. A method comprising:
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receiving an incoming signal comprising at least one multipath component of a signal transmitted by a wireless terminal in an RF environment;
performing a time/frequency analysis on the incoming signal, including comparing a set of frequency components of the incoming signal to a set of expected frequency components of the transmitted signal, to identify a time-of-arrival of a line-of-sight component of the incoming signal; and
identifying a first instant in time at which said set of frequency components of the incoming signal substantially match said set of frequency components of the signal transmitted by the wireless terminal, said first identified instant in time thereby being the time-of-arrival of the line-of-sight component of the incoming signal, wherein said set of frequency components of the incoming signal substantially matches said set of frequency components of the signal transmitted by the wireless terminal when a number of matching corresponding frequency components from the two sets meets or exceeds a threshold.
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Specification