Inertial sensor aided heading and positioning for GNSS vehicle navigation
First Claim
1. A method in a mobile device for providing an improved heading, the method comprising:
- receiving an accelerometer measurement from an accelerometer;
receiving a gyroscope measurement from a gyroscope;
receiving a Global Navigation Satellite Systems heading (GNSS heading) from a GNSS receiver;
computing a gravity vector based on the accelerometer measurementcomputing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector;
combining the GNSS heading and the virtual gyroscope heading rate to form the improved heading; and
correcting the gyroscope with a bias based on the improved heading.
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Accused Products
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.
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Citations
21 Claims
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1. A method in a mobile device for providing an improved heading, the method comprising:
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receiving an accelerometer measurement from an accelerometer; receiving a gyroscope measurement from a gyroscope; receiving a Global Navigation Satellite Systems heading (GNSS heading) from a GNSS receiver; computing a gravity vector based on the accelerometer measurement computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; combining the GNSS heading and the virtual gyroscope heading rate to form the improved heading; and correcting the gyroscope with a bias based on the improved heading. - View Dependent Claims (2, 3)
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4. A mobile device to provide an improved heading, the mobile device comprising:
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an inertial measurement unit comprising an accelerometer and a gyroscope; a Global Navigation Satellite Systems receiver (GNSS receiver); a processor coupled to the inertial measurement unit and the GNSS receiver; and memory coupled to the processor, comprising code for; receiving an accelerometer measurement from the accelerometer; receiving a gyroscope measurement from the gyroscope; receiving a GNSS heading from the GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; and combining the GNSS heading and the virtual gyroscope heading rate to form the improved heading. - View Dependent Claims (5, 6)
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7. A mobile device to provide an improved heading, the mobile device comprising:
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means for receiving an accelerometer measurement; means for receiving a gyroscope measurement; means for receiving a Global Navigation Satellite Systems heading (GNSS heading); means for computing a gravity vector based on the accelerometer measurement; means for computing a virtual gyroscope heading rate based on a projection of the gyroscope measurement and the gravity vector; and means for combining the GNSS heading and virtual gyroscope heading rate. - View Dependent Claims (8, 9)
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10. A device comprising a processor and a memory wherein the memory includes software instructions for:
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receiving an accelerometer measurement from an accelerometer; receiving a gyroscope measurement from a gyroscope; receiving a Global Navigation Satellite Systems heading (GNSS heading) from a GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on a projection of the gyroscope measurement and the gravity vector; and combining the GNSS heading and the virtual gyroscope heading rate to form the improved heading.
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11. A non-transitory computer-readable storage medium including program code stored thereon, comprising program code for:
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receiving an accelerometer measurement from an accelerometer; receiving a gyroscope measurement from a gyroscope; receiving a Global Navigation Satellite Systems heading (GNSS heading) from a GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; and combining the GNSS heading and the virtual gyroscope heading rate to form the improved heading.
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12. A method in a mobile device for providing an improved velocity, the method comprising:
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receiving an accelerometer measurement from an accelerometer; receiving a gyroscope measurement from a gyroscope; receiving a Global Navigation Satellite Systems velocity (GNSS velocity) comprising a GNSS heading from a GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on a projection of the gyroscope measurement and the gravity vector; combining the GNSS heading and the virtual gyroscope heading rate to form an improved heading; computing the improved velocity from the improved heading; and correcting the gyroscope with a bias based on the improved heading. - View Dependent Claims (13, 14, 15, 16, 17)
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18. A mobile device to provide an improved velocity, the mobile device comprising:
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an inertial measurement unit comprising an accelerometer and a gyroscope; a Global Navigation Satellite Systems receiver (GNSS receiver); a processor coupled to the inertial measurement unit and the GNSS receiver; and memory coupled to the processor, comprising code for; receiving an accelerometer measurement from the accelerometer; receiving a gyroscope measurement from the gyroscope; receiving a GNSS velocity comprising a GNSS heading from the GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; combining the GNSS heading and the virtual gyroscope heading rate to form an improved heading; and computing the improved velocity from the improved heading.
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19. A mobile device to provide an improved velocity, the mobile device comprising:
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means for receiving an accelerometer measurement from an accelerometer; means for receiving a gyroscope measurement from a gyroscope; means for receiving a Global Navigation Satellite Systems velocity (GNSS velocity) comprising a GNSS heading from a GNSS receiver; means for computing a gravity vector based on the accelerometer measurement; means for computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; means for combining the GNSS heading and the virtual gyroscope heading rate to form an improved heading; and means for computing the improved velocity from the improved heading.
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20. A device comprising a processor and a memory wherein the memory includes software instructions for:
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receiving an accelerometer measurement from an accelerometer; receiving a gyroscope measurement from a gyroscope; receiving a Global Navigation Satellite Systems velocity (GNSS velocity) comprising a GNSS heading from a GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; combining the GNSS heading and the virtual gyroscope heading rate to form an improved heading; and computing an improved velocity from the improved heading.
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21. A non-transitory computer-readable storage medium including program code stored thereon, comprising program code for:
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receiving an accelerometer measurement from an accelerometer; receiving a gyroscope measurement from a gyroscope; receiving a Global Navigation Satellite Systems velocity (GNSS velocity) comprising a GNSS heading from a GNSS receiver; computing a gravity vector based on the accelerometer measurement; computing a virtual gyroscope heading rate based on the gyroscope measurement and the gravity vector; combining the GNSS heading and the virtual gyroscope heading rate to form an improved heading; and computing an improved velocity from the improved heading.
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Specification