High resolution device and method for imaging concealed objects within an obscuring medium
First Claim
1. An apparatus for obtaining images of concealed objects in an obscuring medium comprising:
- at least one radiation source providing acoustic radiation, the at least one source disposed so radiation therefrom will be incident on an obscuring medium to be scanned, at least one radiation detector associated with the at least one radiation source and disposed to detect radiation exiting the medium, a collimator associated with each detector and disposed between the medium and each detector, wherein the obscuring medium is at least one of snow, ice, gravel, sand, soil, mud, river bottom, lake bottom, ocean bottom, biological waste, sewage or sludge, and human tissue, and a radiation-transparent module having an elastically conformable contact surface, wherein the contact surface is free of rigid support members and is conformable to a discontinuous or irregular medium surface, wherein the module is positioned between at least one of the following two pairs;
the radiation source and a radiation entrance surface of the medium, and a radiation exit surface of the medium and the radiation detector, the module providing a uniform entry surface profile for the radiation incident on the obscuring medium.
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Abstract
A method and apparatus are provided for imaging and identifying concealed objects within an obscuring medium using radiation (optical, photo-acoustic, ionizing, and/or acoustic) optimized for imaging (e.g. temporal properties, spectral bandwidth, directionality, polarization, etc.). Radiation propagates through, interacts with, exits the medium and the object, and is detected/imaged. Image quality can be improved if radiation is collimated and/or if transmission and/or backscattered measurements from a number of perspectives are used to improved image reconstruction. Coupling materials can be employed during image acquisition to enhance radiation coupling as well as providing desirable absorption and scattering properties. Contrast materials and agents can also aid in the detection of concealed objects. Adaptive methods, e.g. using reference objects, including implementations based on the concept of guide stars, can improve the imaging process. The surface can be monitored and groomed to enhance the imaging process. Tomosynthesis techniques can be used to reconstruct images. Acousto-optic effects may be observed when both optical radiation and acoustic radiation are introduce into the medium. A laser vibrometry, speckle, or holographic interferometry imaging technique can be used to readout the acoustic waveform exiting the medium surface directly or after interacting with a deformable mirrored or reflective layer coupled to the medium. The medium may be prepared prior to imaging in order to reduce surface irregularities and roughness. Multilayer mirrors and capillary optics can be used to enhance imaging systems which use ionizing radiation. Resistance images can be obtained using probes to penetrate the medium.
430 Citations
25 Claims
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1. An apparatus for obtaining images of concealed objects in an obscuring medium comprising:
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at least one radiation source providing acoustic radiation, the at least one source disposed so radiation therefrom will be incident on an obscuring medium to be scanned, at least one radiation detector associated with the at least one radiation source and disposed to detect radiation exiting the medium, a collimator associated with each detector and disposed between the medium and each detector, wherein the obscuring medium is at least one of snow, ice, gravel, sand, soil, mud, river bottom, lake bottom, ocean bottom, biological waste, sewage or sludge, and human tissue, and a radiation-transparent module having an elastically conformable contact surface, wherein the contact surface is free of rigid support members and is conformable to a discontinuous or irregular medium surface, wherein the module is positioned between at least one of the following two pairs;
the radiation source and a radiation entrance surface of the medium, and a radiation exit surface of the medium and the radiation detector, the module providing a uniform entry surface profile for the radiation incident on the obscuring medium.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
at least one additional radiation detector disposed to detect radiation exiting the medium, and at least one additional collimator associated with the at least one additional detector, the at least one additional collimator disposed between the medium and the at least one additional detector. -
13. The apparatus of claim 12 wherein the at least one additional radiation detector and associated at least one additional collimator are disposed to measure at least one of transmitted radiation, backscattered radiation, scatter contribution in transmitted radiation, scatter contribution in backscattered radiation, virtual collimated transmitted radiation, virtual collimated backscattered radiation, radiation due to energy conversion, radiation due to a resonance condition, radiation due to the physical structure of the object, radiation due to Doppler scattering, diffuse radiation, speckle, and holographic interferometry patterns.
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14. The apparatus of claim 1 wherein at least one radiation detector is disposed to detect at least one of transmitted radiation, backscattered radiation, scatter contribution in transmitted radiation, scatter contribution in backscattered radiation, virtual collimated transmitted radiation, virtual collimated backscattered radiation, radiation due to energy conversion, radiation due to a resonance condition, radiation due to the physical structure of the object;
- radiation due to Doppler scattering, diffuse radiation, speckle, and holographic interferometry patterns.
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15. The apparatus of claim 1 wherein at least one radiation source is at least one of an acoustic radiation source and at least one detector corresponds to the at least one acoustic radiation source, and the at least one detector comprises at least one of a deformable mirrored deflection plate, a reflective elastic layer, and a transducer.
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16. The apparatus of claim 1 further comprising a delivery system to deliver at least one of a contrast material and a contrast agent to the medium.
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17. The apparatus of claim 1 further comprising at least one of a detection system, a rotating brush, an air jet, and a water jet,
wherein the detection system is configured to perform at least one of the functions of determining the roughness and irregularities of a surface of the medium and locating objects on the surface of the medium, and wherein the rotating brush, air jet, and water jet are configured to clear debris, reduce surface roughness and irregularities, and to uncover objects in the medium. -
18. The apparatus of claim 17 including a deployable bolt configured to penetrate the obscuring medium and contact an object concealed in the medium.
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19. An apparatus for obtaining images of concealed objects in an obscuring medium comprising:
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at least one acoustic radiation source disposed so radiation therefrom will be incident on an obscuring medium to be scanned, and at least one radiation detector comprising a bladder positioned adjacent the medium, the bladder including an elastic contact surface free of any rigid support members and configured to be coupled to the medium to provide a uniform entry and exit surface for the radiation incident on the obscuring medium to be scanned, wherein the bladder is further configured to detect radiation exiting from the at least one radiation source. - View Dependent Claims (20, 21, 22)
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23. A method for obtaining images of concealed objects in an obscuring medium, wherein the medium is at least one of snow, ice, gravel, sand, soil, mud, river bottom, lake bottom, ocean bottom, biological waste, sewage or sludge, the method comprising the steps of:
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(1) positioning a radiation-transparent module having an elastically conformable contact surface free of rigid support members proximate a medium to be scanned, wherein the elastically conformable contact surface is conformable to a discontinuous or irregular medium surface and provides a uniform entry surface profile for the radiation incident on the obscuring medium, (2) irradiating a volume of the medium with acoustic radiation, (3) collimating radiation exiting the medium, and (4) detecting at least one of transmitted radiation, backscattered radiation, scatter contribution in transmitted radiation, scatter contribution in backscattered radiation, virtual collimated transmitted radiation, virtue collimated backscattered radiation, radiation due to energy conversion, radiation due to a resonance condition, radiation due to the physical structure of the object, radiation due to Doppler scattering, diffuse radiation, speckle interferometry patterns, and holographic interferometry patterns. - View Dependent Claims (24, 25)
(5) introducing a coupling material between the elastically conformable contact surface and the medium prior to irradiating the volume of medium.
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25. The method of claim 23 comprising the additional steps of:
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(5) repeating steps (2)-(4) with the radiation source rotated, (6) repeating step (5), and (7) using at least one of tomosynthesis techniques or computed tomography techniques to reconstruct an image.
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Specification