Voting system and method using doppler aided navigation
First Claim
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1. A method of estimating position for an aircraft, the method comprising:
- receiving first position data and first accuracy data from a first absolute position source;
receiving second position data and second accuracy data from a second absolute position source;
receiving relative position source data from at least one relative position source, the relative position source data being provided using correction data;
using the first position data and the second position data to update the correction data when the first position data and the second position data are within performance limits determined using the first accuracy data and the second accuracy data; and
providing the first position data at a first output when the first position data is within an accuracy of the second position data and providing the second position data at a second output when the second position data is within an accuracy of the first position data and providing the relative position source data to the first output, the second output or both the first output and the second output when either the first position data is not within the accuracy of the second position data or the second position data is not within the accuracy of the first position data.
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Abstract
A position determining voting system that uses Doppler information from an on-board weather radar to improve the system'"'"'s accuracy and/or fault tolerance includes a comparison function and an error integration function. The comparison function is used to monitor the independent position sources for correct operation, comparing and identifying a position source that should not be used based on its relative error compared with the other position sources and their characteristics. The integration function provides corrections to relative position sources by integrating the data from multiple absolute position sources when they are mutually consistent.
88 Citations
20 Claims
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1. A method of estimating position for an aircraft, the method comprising:
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receiving first position data and first accuracy data from a first absolute position source; receiving second position data and second accuracy data from a second absolute position source; receiving relative position source data from at least one relative position source, the relative position source data being provided using correction data; using the first position data and the second position data to update the correction data when the first position data and the second position data are within performance limits determined using the first accuracy data and the second accuracy data; and providing the first position data at a first output when the first position data is within an accuracy of the second position data and providing the second position data at a second output when the second position data is within an accuracy of the first position data and providing the relative position source data to the first output, the second output or both the first output and the second output when either the first position data is not within the accuracy of the second position data or the second position data is not within the accuracy of the first position data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A high integrity navigation system comprising:
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at least two absolute navigation systems; at least one relative navigation system; at least one integration function unit; and at least one comparator function unit; wherein the integration function unit provides correction to long-term drift of the relative navigation system; and
wherein comparator unit is configured to compare outputs of the at least two absolute navigation systems with the corrected relative navigation system data and generate a high integrity navigation solution, wherein the high integrity navigation solution provides a first position data at a first output from one of the two absolute navigation systems when the first position data is within an accuracy of second position data from another of the two absolute navigation systems and provides the second position data at a second output when the second position data is within an accuracy of the first position data and provides relative position source data from the relative navigation solution to the first output, the second output or both the first output and the second output when either the first position data is not within the accuracy of the second position data or the second position data is not within the accuracy of the first position data, wherein the relative position source data is provided using correction data, wherein the first position data and the second position data are used to update the correction data when the first position data and the second position data are within performance limits determined using first accuracy data associated with the first position and second accuracy data associated with the second position. - View Dependent Claims (12, 13, 14, 15)
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16. A high integrity navigation system for use in aircraft and other vehicles requiring enhanced navigation performance and integrity, the high integrity navigation system comprising:
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an integration unit configured to receive first and second position data from two absolute navigation systems and relative position data from a relative navigation system, the integration unit configured to receive the relative position data of the relative navigation system with the first and second position data of the two absolute navigation systems to provide high integrity corrections for the relative navigation system when the first position data and the second position data are within performance limits so that the relative navigation system provides an accurate, high-integrity navigation data output comprising the relative position source data; and a unit configured to compare the first and second position data from the two absolute navigation systems and providing the first position data at a first output from one of the two absolute navigation systems when the first position data is within an accuracy of the second position data from another of the two absolute navigation systems and providing the second position data at a second output when the second position data is within an accuracy of the first position data and providing the relative position source data to the first output, the second output or both the first output and the second output when either the first position data is not within the accuracy of the second position data or the second position data is not within the accuracy of the first position data. - View Dependent Claims (17, 18, 19)
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20. An apparatus, comprising:
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an integration function unit configured to receive first navigation data and second navigation data from at least two absolute navigation systems and relative navigation data from at least one relative navigation system, the integration unit further configured to provide corrections for errors in the third navigation data; and an comparator function unit configured to compare the first and second navigation data from the two absolute navigation systems and provide the first navigation data at a first output from one of the two absolute navigation systems when the first navigation data is within an accuracy of the second navigation data from another of the two absolute navigation systems and providing the second navigation data at a second output when the second navigation data is within an accuracy of the first navigation data and providing the relative navigation data to the first output, the second output or both the first output and the second output when either the first navigation data is not within the accuracy of the navigation data or the second navigation data is not within the accuracy of the first navigation data.
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Specification