Reliability metrics for parameter estimates which account for cumulative error
First Claim
1. A method comprising:
- determining whether a non-line of sight signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak;
obtaining an indication of the non-line of sight signal condition based on a measure of the correlation function at the peak;
deriving a reliability metric for a parameter estimate based in part on the indication, and wherein the reliability metric has a non-linear relationship to the indication of the non-line of sight signal condition;
determining whether a multi-path signal condition is present; and
determining whether the multi-path signal condition provides a contribution to the reliability metric independent of a contribution from the non-line of sight condition, andwherein deriving the reliability metric comprises deriving the reliability metric based on an independence of the contributions.
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Abstract
A method of producing a reliability metric for a parameter estimate derived from a signal using correlation analysis is described. The method begins by obtaining an indication of whether a non line of sight signal condition is present or likely and/or obtaining an indication of whether a multi-path signal condition is present or likely. Responsive to one or both of these indications, the method derives a reliability metric for the parameter estimate. In one embodiment, the parameter estimate is an estimate of time of arrival (TOA) of the signal, and the reliability metric is root mean square error (RMSE) of the time of arrival estimate. This embodiment obtains an indication of whether a non line of sight signal condition is present or likely based on a measure of the strength of the correlation function at the peak thereof. The measure of the strength of the correlation function at the peak thereof may be energy per chip divided by total received power (Ec/I0) or may simply be the raw energy of the correlation function at the peak. The RMSE metric which is computed in this embodiment varies inversely with the peak strength of the correlation function.
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Citations
26 Claims
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1. A method comprising:
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determining whether a non-line of sight signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak; obtaining an indication of the non-line of sight signal condition based on a measure of the correlation function at the peak; deriving a reliability metric for a parameter estimate based in part on the indication, and wherein the reliability metric has a non-linear relationship to the indication of the non-line of sight signal condition; determining whether a multi-path signal condition is present; and determining whether the multi-path signal condition provides a contribution to the reliability metric independent of a contribution from the non-line of sight condition, and wherein deriving the reliability metric comprises deriving the reliability metric based on an independence of the contributions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A method comprising:
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determining whether a non-line of sight signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak; obtaining an indication of the non-line of sight signal condition based on a measure of the correlation function at the peak, wherein the measure of the correlation function comprises a measure of a strength of the correlation function at the peak thereof; and deriving a reliability metric for a parameter estimate based in part on the indication, wherein the narameter estimate is an estimate of time of arrival (TOA) of a signal, the TOA estimate derived from the peak of the correlation function for the signal, wherein the reliability metric has a non-linear relationship to the indication of the non-line of sight signal condition, and wherein the reliability metric comprises root mean sguare error (RMSE) of the TOA estimate derived using a lookup table, and wherein the lookup table implements a relationship between the RMSE of the TOA estimate, the strength of the correlation function at the peak thereof, and the integration time used to derive the correlation function.
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15. A method comprising:
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determining whether a non-line of sight signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak; obtaining an indication of the non-line of sight signal condition based on a measure of the correlation function at the peak, wherein the measure of the correlation function comprises a measure of a strength of the correlation function at the peak thereof; and deriving a reliability metric for a parameter estimate based in part on the indication, wherein the parameter estimate is an estimate of time of arrival (TOA) of a signal, the TOA estimate derived from the peak of the correlation function for the signal, wherein the reliability metric has a non-linear relationship to the indication of the non-line of sight signal condition, and wherein the reliability metric comprises root mean sciuare error (RMSE) of the TOA estimate derived using a lookup table, and wherein a formula implements a relationship between the RMSE of the TOA estimate, the strength of the correlation function at the peak thereof, and the integration time used to derive the correlation function.
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16. A system for providing a reliability metric for a parameter estimate derived from a signal using correlation analysis comprising:
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first logic for providing an indication of whether a non-line of sight signal condition is present and determining whether a multi-path signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak; and second logic for deriving a reliability metric for the parameter estimate responsive to the indication provided by the first logic, determining whether the multi-path signal condition provides a contribution to the reliability metric independent of a contribution from the non-line of sight condition, wherein deriving the reliability metric comprises deriving the reliability metric based on an independence of the contributions, and wherein the reliability metric has an inverse relationship to the strength of the correlation function at the peak. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24)
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25. A system for providing a reliability metric for a parameter estimate derived from a signal using correlation analysis comprising:
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first logic for providing an indication of whether a non-line of sight signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak; and second logic for deriving a reliability metric for a parameter estimate responsive to the indication provided by the first logic, wherein the parameter estimate is an estimate of time of arrival (TOA) derived from a peak of a correlation function for a signal, wherein the reliability metric is root mean square error (RMSE) of the TOA estimate, and wherein the reliability metric has an inverse relationship to the strength of the correlation function at the peak, wherein the second logic is conflaured to derive the RMSE of the TOA estimate using a lookup table, and wherein the lookup table implements a relationship between the RMSE of the TOA estimate, the strength of the correlation function at the peak thereof, and the integration time used to derive the correlation function.
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26. A system for providing a reliability metric for a parameter estimate derived from a signal using correlation analysis comprising:
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first logic for providing an indication of whether a non-line of sight signal condition is present based on at least one of a strength of a correlation function at a peak compared to an expected strength or distinguishing a first peak from a sidelobe of a second peak; and second logic for deriving a reliability metric for a parameter estimate responsive to the indication provided by the first logic, wherein the parameter estimate is an estimate of time of arrival (TOA) derived from a peak of a correlation function for a signal, wherein the reliability metric is root mean square error (RMSE) of the TOA estimate, and wherein the reliability metric has an inverse relationship to the strength of the correlation function at the peak, wherein a formula implements a relationship between the RMSE of the TOA estimate, the strength of the correlation function at the peak thereof, and the integration time used to derive the correlation function.
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Specification