Coded aperture imaging
First Claim
1. A method of imaging radiation using coded apertures comprising:
- generating a first signal at a detector as a result of near-field radiation from an object being projected through a first coded aperture mask pattern;
the object and the first coded aperture mask pattern configured such that the image of the object projected through the first coded aperture mask pattern is the convolution of the coded aperture mask pattern with the object that is modulated by a cos3(θ
) term, where cos3(θ
) is not approximately equal to one;
generating a second signal at the detector as a result of near-field radiation from the object being projected through a second coded aperture mask pattern, where the second coded aperture mask pattern is associated with a decoding array that is the negative of a decoding array associated with the first coded aperture mask pattern; and
combining the first and second signals to obtain a reconstructed image of the object that is substantially free of near-field artifacts that would visibly corrupt the reconstructed image if the reconstructed image were obtained solely from the first signal.
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Accused Products
Abstract
Improved systems and methods for coded aperture imaging of radiation-emitting sources. According to one aspect, the present invention is directed to reducing and/or eliminating the artifacts that are inherent in previous near field coded aperture imaging systems such that the improved sensitivity and resolution of these systems can be practically utilized.
A system and method of the present invention utilizes two projections of radiation from an object, the first through a first coded aperture mask pattern, and the second through a second coded aperture mask pattern, where a decoding array associated with the second mask pattern is the negative of a decoding array associated with the first mask pattern. Data from both projections is combined to produce a reconstructed object image that is substantially free of near-field artifacts.
The present invention additionally relates to further improvements in the sensitivity and spatial resolution of coded aperture imaging applications. More particularly, the present invention relates to improvements in the design and fabrication of coded aperture masks for use in coded aperture imaging devices. Improvements can be made to the resolution, for instance, by selecting smaller pixel sizes for the opaque and transparent elements of the coded aperture mask. Also, it is possible to improve the signal-to-noise ratio for near-field applications by selecting an appropriate thickness for the mask. The signal-to-noise ratio may be further improved by selecting the appropriate mask pattern based on the particular characteristics of the near-field imaging problem at hand.
174 Citations
32 Claims
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1. A method of imaging radiation using coded apertures comprising:
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generating a first signal at a detector as a result of near-field radiation from an object being projected through a first coded aperture mask pattern;
the object and the first coded aperture mask pattern configured such that the image of the object projected through the first coded aperture mask pattern is the convolution of the coded aperture mask pattern with the object that is modulated by a cos3(θ
) term, where cos3(θ
) is not approximately equal to one;
generating a second signal at the detector as a result of near-field radiation from the object being projected through a second coded aperture mask pattern, where the second coded aperture mask pattern is associated with a decoding array that is the negative of a decoding array associated with the first coded aperture mask pattern; and
combining the first and second signals to obtain a reconstructed image of the object that is substantially free of near-field artifacts that would visibly corrupt the reconstructed image if the reconstructed image were obtained solely from the first signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
after radiation from the object is projected through the first coded aperture mask pattern, replacing a first coded aperture mask with a second coded aperture mask.
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11. The method of claim 1 wherein a single coded aperture mask comprises both the first coded aperture mask pattern and the second coded aperture mask pattern.
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12. The method of claim 11 further comprising:
after radiation from the object is projected through the first coded aperture mask pattern, rotating the coded aperture mask by a pre-determined angle to provide the second mask pattern.
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13. The method of claim 12 wherein the pre-determined angle is 90 degrees.
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14. The method of claim 1 wherein radiation from the object is projected through the first coded aperture mask pattern and radiation from the object is projected through the second coded aperture mask pattern for approximately equal time durations.
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15. The method of claim 1 further comprising positioning the first coded aperture mask pattern and detector and/or the object such that the center of mass of the object is at about the center of the field of view of the mask and detector.
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16. The method of claim 1 wherein the generated signals are processed using a decoding function associated with each coded aperture mask pattern.
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17. The method of claim 16 wherein the decoding function is scaled to obtain a reconstructed image of a two-dimensional slice of a three dimensional object.
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18. The method of claim 1 wherein the generated signals from the first and second projections are added to cancel near-field artifacts that would otherwise appear in the reconstructed image.
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19. The method of claim 1 wherein processing data from the projections includes dividing the data by a pre-factor to correct for zero-order artifacts.
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20. The method of claim 1 further comprising:
while obtaining an image projected through a the coded aperture mask patterns changing the position of the object relative to the coded aperture mask and the detector to obtain an image of a cross-sectional slice of a three-dimensional object.
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21. The method of claim 1 wherein the coded aperture mask patterns are mosaicked.
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22. An apparatus for imaging an object emitting near-field radiation comprising:
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a detector array for detecting at least one of the energy or position of radiation emitted by the object and generating a signal in response thereto;
at least one coded aperture mask, including a first mask pattern and a second mask pattern, disposed between the detector and the object, such that a first portion of the radiation is detected by the detector array after passage through the first mask pattern, and a second portion of the radiation is detected by the detector array after passage through the second mask pattern, where the second mask pattern is associated with a decoding array that is the negative of a decoding array associated with the first mask pattern;
the object and the mask patterns being configured such that radiation emitted by the object and projected through a the first mask pattern produces an image that is the convolution of the first mask pattern with the object that is modulated by a cos3(θ
) term, where cos3(θ
) is not approximately equal to one; and
a data processor for processing signals, the signals generated in response to radiation passed through the first mask pattern and radiation passed through the second pattern, to produce a reconstructed image of the object that is substantially free of near-field artifacts that would visibly corrupt the reconstructed image if the reconstructed image were obtained solely from the signal generated in response to radiation passed through the first mask pattern. - View Dependent Claims (23, 24, 25, 26, 27, 28, 29, 30, 31, 32)
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Specification