System for measuring the effect of bearing errors in an active device
First Claim
1. A method for determining a pointing error of an object attached to a shaft, comprising:
- providing a set of distance measuring probes at each end of the shaft;
using the probes, measuring a position of each end of the shaft for producing shaft-end position data;
determining a geometric error vector for each end of the shaft from the shaft-end position data; and
, using the geometric error vector, determining the pointing error of the object.
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Accused Products
Abstract
Disclosed herein are apparatus and methods for measuring error associated with the rotation of bearings (50) used within a pointing device (11) on board a space-based platform. The apparatus includes inductive, or “eddy current,” proximity sensors (1000) adapted for measuring the positioning of bearing components. The apparatus also includes processing capabilities (1010) for receiving data from the proximity sensors (1000), and producing compensation data. The compensation data is used in one of various techniques for correcting errors in the angular measurement or pointing of the device (11). The techniques disclosed herein include conducting an initial calibration of the proximity sensors (1000) and generating calibration data. Once in active use, sensor measurements are combined with calibration data to produce compensation data. Ongoing measurements may be used to update the calibration data as necessary.
106 Citations
25 Claims
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1. A method for determining a pointing error of an object attached to a shaft, comprising:
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providing a set of distance measuring probes at each end of the shaft;
using the probes, measuring a position of each end of the shaft for producing shaft-end position data;
determining a geometric error vector for each end of the shaft from the shaft-end position data; and
,using the geometric error vector, determining the pointing error of the object. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An apparatus for determining a pointing error of an object attached to a shaft, comprising:
a set of distance measuring probes disposed at each end of the shaft adapted for monitoring a position of the shaft and producing shaft-end position data, the set of distance measuring probes being coupled to a processor for receiving the shaft-end position data and determining a geometric error vector for each end of the shaft and using the geometric error vector, determining the pointing error of the object. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for characterizing a repeatable position error in a pointing device attached to a shaft supported by bearings, comprising:
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providing a set of distance measuring probes at each end of the shaft;
setting the shaft to a predetermined location;
measuring a position of each end of the shaft at the predetermined location for producing position data;
determining a geometric error vector from the position data for each end of the shaft;
using the geometric error vector, determining a pointing error of the pointing device;
storing the pointing error for each predetermined location to establish a pointing error record;
repeating the determining of the pointing error until a new determination of pointing error for a predetermined location is within an acceptable tolerance for agreement with the pointing error record; and
,identifying the pointing error stored in the pointing error record as repeatable position error data. - View Dependent Claims (20, 21)
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22. A computer program product stored on a computer readable storage medium, comprising computer readable program code instructions to determine a pointing error of an object, the instructions comprising steps for:
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producing measurement data for a location of the object by measuring a position of a shaft with a set of distance measuring sensors disposed at each end of the shaft to which the object is attached;
determining a geometric error vector for each end of the shaft from the position data; and
,using the geometric error vector, determining the pointing error of the object. - View Dependent Claims (23)
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24. A method for determining pointing error of a pointing device, the method comprising:
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providing the pointing device attached to a shaft, the shaft coupled to a first bearing assembly rotating about a first axis, and coupled to a second bearing assembly rotating about a second axis, and a set of distance measuring sensors adapted to monitor the position of the pointing device;
measuring the position of the pointing device along the first axis and the second axis to produce position data, ds;
retrieving repeatable error data from a source of calibration data to produce a repeatable error component;
subtracting the repeatable error component from the position data, ds, to produce a non-repeatable error component, ads;
using the non-repeatable error component, ads, computing a first axis position error, Δ
az, and computing a second axis position error, Δ
el; and
,computing the pointing device error, MOA_ERROR, as
where Δ
azy denotes a y-axis component of the first axis position error, Δ
az;
Δ
azx denotes a x-axis component of the first axis position error, Δ
az;
el denotes an angle in the second axis, and az denotes an angle in the first axis.
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25. A method for compensating for pointing error in a pointing device attached to a shaft of a spacecraft, comprising:
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providing a set of distance measuring probes at each end of the shaft;
measuring a position of each end of the shaft for producing position data;
determining a geometric error vector for each end of the shaft from the position data;
using the geometric error vector, determining the pointing error of the pointing device;
using the pointing error to adjust one of a position of the pointing device and a set of data produced by the pointing device.
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Specification