Inertial sensor aided heading and positioning for GNSS vehicle navigation
First Claim
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1. A method in a mobile device to detect if the mobile device is unmounted, the method comprising:
- receiving, in the mobile device, accelerometer measurements;
determining, by the mobile device, an average of the accelerometer measurements;
computing a parameter based on the accelerometer measurements and the average;
computing a variance of the parameter;
comparing the variance to a threshold; and
declaring, by the mobile device, the mobile device is unmounted based on the variance being greater than the threshold.
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Abstract
An apparatus and method for providing an improved heading estimate of a mobile device in a vehicle is presented. First, the mobile device determines if it is mounted in a cradle attached to the vehicle; if so, inertia sensor data may be valid. While in a mounted stated, the mobile device determines whether it has been rotated in the cradle; if so, inertia sensor data may no longer be reliable and a recalibration to determine a new relative orientation between the vehicle and the mobile device is needed. If the mobile device is mounted and not recently rotated, heading data from multiple sensors (e.g., GPS, gyroscope, accelerometer) may be computed and combined to form the improved heading estimate. This improved heading estimate may be used to form an improved velocity estimate. The improved heading estimate may also be used to compute a bias to correct a gyroscope.
33 Citations
35 Claims
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1. A method in a mobile device to detect if the mobile device is unmounted, the method comprising:
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receiving, in the mobile device, accelerometer measurements; determining, by the mobile device, an average of the accelerometer measurements; computing a parameter based on the accelerometer measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring, by the mobile device, the mobile device is unmounted based on the variance being greater than the threshold. - View Dependent Claims (2, 3)
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4. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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an inertial measurement unit comprising an accelerometer; a processor coupled to the inertial measurement unit; and memory coupled to the processor, comprising code for; receiving accelerometer measurements; determining an average of the accelerometer measurements; computing a parameter based on the accelerometer measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring the mobile device is unmounted based on the variance being greater than the threshold. - View Dependent Claims (5, 6)
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7. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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means for receiving accelerometer measurements; means for determining an average of the accelerometer measurements; means for computing a parameter based on the accelerometer measurements and the average; means for computing a variance of the parameter; means for comparing the variance to a threshold; and means for declaring the mobile device is unmounted based on the variance being greater than the threshold. - View Dependent Claims (8, 9)
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10. A mobile device comprising a processor and a memory wherein the memory includes software instructions for:
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receiving accelerometer measurements; determining an average of the accelerometer measurements; computing a parameter based on the accelerometer measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring the mobile device is unmounted based on the variance being greater than the threshold.
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11. A non-transitory computer-readable storage medium including program code stored thereon, comprising program code for a mobile device for:
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receiving accelerometer measurements; determining an average of the accelerometer measurements; computing a parameter based on the accelerometer measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring the mobile device is unmounted based on the variance being greater than the threshold.
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12. A method in a mobile device to detect if the mobile device is unmounted, the method comprising:
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receiving, in the mobile device, gyroscope measurements; determining, by the mobile device, an average of the gyroscope measurements; computing a parameter based on the gyroscope measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring, by the mobile device, the mobile device is unmounted based on the variance being greater than the threshold. - View Dependent Claims (13, 14)
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15. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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an inertial measurement unit comprising a gyroscope; a processor coupled to the inertial measurement unit; and memory coupled to the processor, comprising code for; receiving gyroscope measurements; determining an average of the gyroscope measurements; computing a parameter based on the gyroscope measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring the mobile device is unmounted based on the variance being greater than the threshold. - View Dependent Claims (16, 17)
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18. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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means for receiving gyroscope measurements; means for determining an average of the gyroscope measurements; means for computing a parameter based on the gyroscope measurements and the average; means for computing a variance of the parameter; means for comparing the variance to a threshold; and means for declaring the mobile device is unmounted based on the variance being greater than the threshold. - View Dependent Claims (19, 20)
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21. A mobile device comprising a processor and a memory wherein the memory includes software instructions for:
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receiving gyroscope measurements; determining an average of the gyroscope measurements; computing a parameter based on the gyroscope measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring the mobile device is unmounted based on the variance being greater than the threshold.
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22. A non-transitory computer-readable storage medium including program code stored thereon, comprising program code for a mobile device for:
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receiving gyroscope measurements; determining an average of the gyroscope measurements; computing a parameter based on the gyroscope measurements and the average; computing a variance of the parameter; comparing the variance to a threshold; and declaring the mobile device is unmounted based on the variance being greater than the threshold.
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23. A method in a mobile device to detect if the mobile device is unmounted, the method comprising:
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receiving, in the mobile device, accelerometer measurements; determining, by the mobile device, an average of the accelerometer measurements; computing an angle between the average and an axis perpendicular to a viewable display on the mobile device; comparing the angle to a threshold; and declaring, by the mobile device, the mobile device is unmounted based on the angle being less than the threshold.
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24. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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an inertial measurement unit comprising an accelerometer; a processor coupled to the inertial measurement unit; and memory coupled to the processor, comprising code for; receiving accelerometer measurements; determining an average of the accelerometer measurements; computing an angle between the average and an axis perpendicular to a viewable display on the mobile device; comparing the angle to a threshold; and declaring the mobile device is unmounted based on the angle being less than the threshold.
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25. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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means for receiving accelerometer measurements; means for determining an average of the accelerometer measurements; means for computing an angle between the average and an axis perpendicular to a viewable display on the mobile device; means for comparing the angle to a threshold; and means for declaring the mobile device is unmounted based on the angle being less than the threshold.
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26. A mobile device comprising a processor and a memory wherein the memory includes software instructions for:
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receiving accelerometer measurements; determining an average of the accelerometer measurements; computing an angle between the average and an axis perpendicular to a viewable display on the mobile device; comparing the angle to a threshold; and declaring the mobile device is unmounted based on the angle being less than the threshold.
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27. A non-transitory computer-readable storage medium including program code stored thereon, comprising program code for a mobile device for:
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receiving accelerometer measurements; determining an average of the accelerometer measurements; computing an angle between the average and an axis perpendicular to a viewable display on the mobile device; comparing the angle to a threshold; and declaring the mobile device is unmounted based on the angle being less than the threshold.
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28. A method in a mobile device to detect if the mobile device is unmounted, the method comprising:
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computing, in the mobile device, variance values for a virtual gyroscope heading rate; setting a flag if any of the variance values exceed a respective threshold; and declaring, by the mobile device, the mobile device is not in a mounted state based on the flag. - View Dependent Claims (29, 30, 31)
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32. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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an inertial measurement unit comprising an accelerometer; a processor coupled to the inertial measurement unit; and memory coupled to the processor, comprising code for; computing variance values for a virtual gyroscope heading rate; setting a flag if any of the variance values exceed a respective threshold; and declaring the mobile device is not in a mounted state based on the flag.
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33. A mobile device to detect if the mobile device is unmounted, the mobile device comprising:
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means for computing variance values for a virtual gyroscope heading rate; means for setting a flag if any of the variance values exceed a respective threshold; and means for declaring the mobile device is not in a mounted state based on the flag.
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34. A device comprising a processor and a memory wherein the memory includes software instructions for:
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computing variance values for a virtual gyroscope heading rate; setting a flag if any of the variance values exceed a respective threshold; and declaring the mobile device is not in a mounted state based on the flag.
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35. A non-transitory computer-readable storage medium including program code stored thereon, comprising program code for:
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computing variance values for a virtual gyroscope heading rate; setting a flag if any of the variance values exceed a respective threshold; and declaring the mobile device is not in a mounted state based on the flag.
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Specification
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Current AssigneeQualcomm, Inc.
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Original AssigneeQualcomm, Inc.
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InventorsCzompo, Joseph, Joshi, Ashutosh, Namburi, Shanta Pavan, Ahuja, Disha
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Primary Examiner(s)Barbee, Manuel L
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Application NumberUS13/309,519Publication NumberTime in Patent Office2,161 DaysField of Search702141, 702150, 702151, 702153, 702154, 735033, 7351401US Class CurrentCPC Class CodesG01C 21/165 combined with non-inertial ...G01C 21/188 for accumulated errors, e.g...G01C 21/26 specially adapted for navig...G01C 25/005 initial alignment, calibrat...G01S 19/14 specially adapted for speci...G01S 19/393 Trajectory determination or...G01S 19/47 the supplementary measureme...G01S 19/52 Determining velocity
