Inertial waypoint finder
First Claim
1. A navigation system comprising:
- (a) a means for identifying an origin,(b) an inertial reference frame comprising mutually exclusive orthogonal axes X, Y, and Z,(c) a triad of linear accelerometers wherein the sensitive axis of each linear accelerometer is aligned exclusively with one axis of said inertial reference frame,(d) a tilt-rate sensor wherein said tilt-rate sensor senses a rotation about said axis X and a rotation about said axis Y of said inertial reference frame,(e) a yaw-rate sensor wherein said yaw-rate sensor senses a rotation about said axis Z of said inertial reference frame,(f) a processor means for computing a composite direction of travel based on a triad of linear accelerations from said triad of linear accelerometers, a tilt-rate from said tilt-rate sensor, and a yaw-rate from said yaw-rate sensor, and updating said computation at regular time intervals; and
(g) a processor means for mathematically calculating a direction of travel to said origin from said composite direction of travel.
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Abstract
Using a combination of inertial sensors (accelerometers 70, 80, 90, 170, 180, 190) and, perhaps, a digital compass, a device can record movement in all directions relative to an origin (300), or initial position. Once the device has captured the information, it can calculate heading and distance from the current position back to the origin (160). Other navigational equipment relies on signals from global positioning system (GPS) satellites and, thus, will not function properly in urban canyons or inside buildings of any sort. This device can determine direction and distance under nearly any circumstances and has a small footprint that will allow the embedding of it into nearly any consumer electronic device (10). The consumer electronic device can then display a directional arrow (30), or the distance to the origin (40) alongside other relevant information. One obvious use of the invention is to find your parked vehicle (60) (also known as a “vehicle locator”).
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Citations
10 Claims
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1. A navigation system comprising:
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(a) a means for identifying an origin, (b) an inertial reference frame comprising mutually exclusive orthogonal axes X, Y, and Z, (c) a triad of linear accelerometers wherein the sensitive axis of each linear accelerometer is aligned exclusively with one axis of said inertial reference frame, (d) a tilt-rate sensor wherein said tilt-rate sensor senses a rotation about said axis X and a rotation about said axis Y of said inertial reference frame, (e) a yaw-rate sensor wherein said yaw-rate sensor senses a rotation about said axis Z of said inertial reference frame, (f) a processor means for computing a composite direction of travel based on a triad of linear accelerations from said triad of linear accelerometers, a tilt-rate from said tilt-rate sensor, and a yaw-rate from said yaw-rate sensor, and updating said computation at regular time intervals; and (g) a processor means for mathematically calculating a direction of travel to said origin from said composite direction of travel. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A navigation system comprising:
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(a) an input button for identifying an origin, (b) an inertial reference frame comprising mutually exclusive orthogonal axes X, Y, and Z, (c) a triad of linear accelerometers wherein the sensitive axis of each linear accelerometer is aligned exclusively with one axis of said inertial reference frame, (d) a triad of angular accelerometers wherein each angular accelerometer senses a rotation about exclusively one axis of said inertial reference frame, (e) a processor for computing a composite direction of travel based on a triad of linear accelerations from said triad of linear accelerometers and a triad of angular accelerations from said triad of angular accelerometers, and updating said computation at regular time intervals; and (f) a processor for mathematically calculating a direction of travel to said origin from said composite direction of travel. - View Dependent Claims (8, 9, 10)
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Specification