OBJECT ORIENTATION TRACKER
First Claim
1. A system for tracking an orientation of an object, the system comprising:
- a first sensor that measures the orientation of the object relative to an external reference frame and generates an orientation signal based on the measured orientation of the object, the first sensor being subject to drift over time;
a second sensor that receives a global positioning system (GPS) signal and generates a drift compensation signal based on the received GPS signal; and
a processor coupled to the first sensor and the second sensor, the processor generating a drift-corrected orientation signal based on the orientation signal from the first sensor and the drift compensation signal from the second sensor.
1 Assignment
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Accused Products
Abstract
Aspects of the present invention relate to systems, methods, and computer program products for tracking an orientation of an object. The system includes a first sensor that measures the orientation of the object relative to an external reference frame and generates an orientation signal based on the measured orientation of the object, the first sensor being subject to drift over time; a second sensor that receives a global positioning system (GPS) signal and generates a drift compensation signal based on the received GPS signal; and a processor coupled to the first sensor and the second sensor, the processor generating a drift-corrected orientation signal based on the orientation signal from the first sensor and the drift compensation signal from the second sensor.
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Citations
14 Claims
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1. A system for tracking an orientation of an object, the system comprising:
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a first sensor that measures the orientation of the object relative to an external reference frame and generates an orientation signal based on the measured orientation of the object, the first sensor being subject to drift over time; a second sensor that receives a global positioning system (GPS) signal and generates a drift compensation signal based on the received GPS signal; and a processor coupled to the first sensor and the second sensor, the processor generating a drift-corrected orientation signal based on the orientation signal from the first sensor and the drift compensation signal from the second sensor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method for tracking an orientation of an object, the method comprising:
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measuring the orientation of the object relative to an external reference frame using a first sensor; generating an orientation signal based on the measured orientation of the object using the first sensor, the first sensor being subject to drift over time; receiving a global positioning system (GPS) signal using a second sensor; generating a drift compensation signal based on the received GPS signal using the second sensor; and generating a drift-corrected orientation signal based on the orientation signal from the first sensor and the drift compensation signal from the second sensor using a processor coupled to the first and second sensor.
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13. A system for tracking an orientation of an object, the system comprising:
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means for measuring the orientation of the object relative to an external reference frame using a first sensor; means for generating an orientation signal based on the measured orientation of the object using the first sensor, the first sensor being subject to drift over time; means for receiving a global positioning system (GPS) signal using a second sensor; means for generating a drift compensation signal based on the received GPS signal using the second sensor; and means for generating a drift-corrected orientation signal based on the orientation signal from the first sensor and the drift compensation signal from the second sensor using a processor coupled to the first and second sensor.
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14. A computer program product comprising a non-transitory computer-readable medium having control logic stored therein for causing a computer to control a tracking of an orientation of an object, the control logic comprising:
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code for measuring the orientation of the object relative to an external reference frame using a first sensor; code for generating an orientation signal based on the measured orientation of the object using the first sensor, the first sensor being subject to drift over time; and code for receiving a global positioning system (GPS) signal using a second sensor; code for generating a drift compensation signal based on the received GPS signal using the second sensor; and code for generating a drift-corrected orientation signal based on the orientation signal from the first sensor and the drift compensation signal from the second sensor using a processor coupled to the first and second sensor.
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Specification