METHOD FOR LOW SIDELOBE OPERATION OF A PHASED ARRAY ANTENNA HAVING FAILED ANTENNA ELEMENTS
First Claim
1. A method of modifying an antenna pattern for a phased array antenna having a failed antenna element, the method comprising:
- determining a plurality of proximate beamformers in a proximate angular region about a beamformer at an angle of interest where each of the proximate beamformers having a proximate beamformer weight vector with no failed elements;
determining a corrected beamformer weight vector at the angle of interest as a linear combination of the proximate beamformer weight vectors, each element of the corrected beamformer weight vector corresponding to one of the failed antenna elements having a value of zero.
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Accused Products
Abstract
Described is a method of modifying an antenna pattern for a phased array antenna having at least one failed antenna element. A number of proximate beamformers in a proximate angular region about a beamformer at an angle of interest are determined. Each of the proximate beamformers has a proximate beamformer weight vector. A corrected beamformer weight vector is determined for the angle of interest as a linear combination of the proximate beamformer weight vectors. Each element of the corrected beamformer weight vector that corresponds to one of the failed antenna elements has a value of zero. The method enables computation of low spatial sidelobe antenna patterns without requiring a recalibration of the antenna thereby enabling uninterrupted operation of systems that employ phased array antennas. The method can also be used to control taper loss or sidelobe level for phased array antennas that have no failed antenna elements.
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Citations
25 Claims
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1. A method of modifying an antenna pattern for a phased array antenna having a failed antenna element, the method comprising:
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determining a plurality of proximate beamformers in a proximate angular region about a beamformer at an angle of interest where each of the proximate beamformers having a proximate beamformer weight vector with no failed elements; determining a corrected beamformer weight vector at the angle of interest as a linear combination of the proximate beamformer weight vectors, each element of the corrected beamformer weight vector corresponding to one of the failed antenna elements having a value of zero. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method of modifying an antenna pattern of a phased array antenna having a failed antenna element, the method comprising:
for a beamformer having low sidelobes and defined for an angular direction θ
, wherein at least one antenna element in a plurality of antenna elements coupled to the beamformer is a failed antenna element, determining a corrected beamformer having a corrected beamformer weight vector ŵ
(θ
) for the angular direction θ
as
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11. A method of determining a modified beamformer for a phased array antenna, the method comprising:
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(a) selecting a target value for a change in an average sidelobe estimate for a modified beamformer for a phased array antenna; (b) selecting a value for a maximum taper loss for the modified beamformer; (c) determining the modified beamformer as a linear combination of a number of proximate beamformers defined according to an absence of failed antenna elements; (d) determining the change in the average sidelobe estimate based on the modified beamformer; (e) if the change in the average sidelobe estimate for the modified beamformer exceeds the selected target value, repeating steps (c) and (d) until the change in the average sidelobe estimate does not exceed the selected target value, wherein the number of proximate beamformers used to determine the modified beamformer is increased for each repetition of steps (c) and (d); and (f) if the taper loss for the modified beamformer exceeds the selected value for the maximum taper loss, repeating steps (c) to (e) until the taper loss for the modified beamformer does not exceed the selected value for the maximum taper loss, wherein the number of proximate beamformers used to determine the modified beamformer is increased for each repetition of steps (c) to (e). - View Dependent Claims (12, 13, 14, 15, 16)
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17. A method of determining a modified beamformer for a phased array antenna, the method comprising:
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(a) selecting a target value for a taper loss for a modified beamformer for a phased array antenna; (b) selecting a maximum value for a change in an average sidelobe estimate for the modified beamformer; (c) determining the modified beamformer as a linear combination of a number of proximate beamformers defined according to an absence of failed antenna elements; (d) determining the taper loss based on the modified beamformer; and (e) if the taper loss for the modified beamformer exceeds the selected target value, repeating steps (c) and (d) until the taper loss does not exceed the selected target value, wherein the number of proximate beamformers used to determine the modified beamformer is increased for each repetition of steps (c) and (d); and (f) if the change in the sidelobe estimate for the modified beamformer exceeds the maximum value, repeating steps (c) to (e) until the change in the sidelobe estimate for the modified beamformer does not exceed the maximum value, wherein the number of proximate beamformers used to determine the modified beamformer is increased for each repetition of steps (c) to (e). - View Dependent Claims (18, 19, 20, 21, 22)
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23. A computer program product for determining a modified antenna pattern for a phased array antenna having a failed antenna element, the computer program product comprising:
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a computer readable storage medium having computer readable program code embodied therewith, the computer readable program code comprising; computer readable program code configured to determine a plurality of proximate beamformers in a proximate angular region about a beamformer at an angle of interest and having at least one failed antenna element, each of the proximate beamformers having a proximate beamformer weight vector; and computer readable program code configured to determining a corrected beamformer weight vector at the angle of interest as a linear combination of the proximate beamformer weight vectors, each element of the corrected beamformer weight vector corresponding to one of the failed antenna elements having a value of zero. - View Dependent Claims (24, 25)
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Specification