Large-area imaging by concatenation with array microscope
First Claim
1. A method of combining multiple swaths of images acquired with a linear scan of an object with an array microscope, comprising the following steps:
- providing a two-dimensional microscope array with a plurality of magnifying imaging systems disposed along a corresponding plurality of optical axes for imaging a picture of the object onto a detector, said plurality of magnifying imaging systems being arranged in rows and configured to image respective sections of the object, wherein said rows of imaging systems are staggered with respect to a linear direction of scan across the object, such that each of the imaging systems acquires image data corresponding to a respective continuous strip of the object along said linear direction of scan;
providing a scanning mechanism for producing a relative movement between the microscope array and the object, said scanning mechanism operating continuously along said linear direction of scan across the object;
calibrating said array microscope to derive correction factors for distortion in said image data;
scanning the object to produce multiple adjacent image swaths of the object, each swath having a width defined by a field of view of a corresponding magnifying imaging system in the array and a length defined by said linear direction of scan across the object;
applying said correction factors to said multiple image swaths to obtain multiple swaths of corrected images; and
concatenating said multiple swaths of corrected images to produce a composite image of the object.
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Accused Products
Abstract
An imaging apparatus consists of multiple miniaturized microscopes arranged into an array capable of simultaneously imaging respective portions of an object. A continuous linear translation approach is followed to scan the object and generate multiple image swaths of the object. In order to improve the quality of the composite image produced by concatenation of the image swaths, the performance of each microscope is normalized to the same base reference for each relevant optical-system property. Correction factors are developed through calibration to equalize the spectral response measured at each detector, to similarly balance the gains and offsets of the detector/light-source combinations associated with the various objectives, to correct for geometric misalignments between microscopes, and to correct optical and chromatic aberrations in each objective.
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Citations
17 Claims
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1. A method of combining multiple swaths of images acquired with a linear scan of an object with an array microscope, comprising the following steps:
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providing a two-dimensional microscope array with a plurality of magnifying imaging systems disposed along a corresponding plurality of optical axes for imaging a picture of the object onto a detector, said plurality of magnifying imaging systems being arranged in rows and configured to image respective sections of the object, wherein said rows of imaging systems are staggered with respect to a linear direction of scan across the object, such that each of the imaging systems acquires image data corresponding to a respective continuous strip of the object along said linear direction of scan;
providing a scanning mechanism for producing a relative movement between the microscope array and the object, said scanning mechanism operating continuously along said linear direction of scan across the object;
calibrating said array microscope to derive correction factors for distortion in said image data;
scanning the object to produce multiple adjacent image swaths of the object, each swath having a width defined by a field of view of a corresponding magnifying imaging system in the array and a length defined by said linear direction of scan across the object;
applying said correction factors to said multiple image swaths to obtain multiple swaths of corrected images; and
concatenating said multiple swaths of corrected images to produce a composite image of the object. - View Dependent Claims (2, 3, 4, 5)
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6. A method of combining multiple image swaths acquired in a linear scan of an object with an array microscope, comprising the following steps:
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providing a two-dimensional microscope array with a plurality of magnifying imaging systems disposed along a corresponding plurality of optical axes for imaging a picture of the object onto a detector, said plurality of magnifying imaging systems being arranged in rows and configured to image respective sections of the object, wherein said rows of imaging systems are staggered with respect to a linear direction of scan across the object, such that each of the imaging systems acquires image data corresponding to a respective continuous strip of the object along said linear direction of scan;
providing a scanning mechanism for producing a relative movement between the microscope array and the object, said scanning mechanism operating continuously along said linear direction of scan across the object;
calibrating said array microscope to derive correction factors to produce a uniform spectral response throughout said array microscope;
scanning the object to produce multiple adjacent image swaths of the object, each swath having a width defined by a field of view of a corresponding magnifying imaging system in the array and a length defined by said linear direction of scan across the object;
applying said correction factors to said multiple image swaths to obtain multiple swaths of corrected images; and
concatenating said multiple swaths of corrected images to produce a composite image of the object. - View Dependent Claims (7, 8, 9)
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10. A method of combining multiple image swaths acquired in a linear scan of an object with an array microscope, comprising the following steps:
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providing a two-dimensional microscope array with a plurality of magnifying imaging systems disposed along a corresponding plurality of optical axes for imaging a picture of the object onto a detector, said plurality of magnifying imaging systems being arranged in rows and configured to image respective sections of the object, wherein said rows of imaging systems are staggered with respect to a linear direction of scan across the object, such that each of the imaging systems acquires image data corresponding to a respective continuous strip of the object along said linear direction of scan;
providing a scanning mechanism for producing a relative movement between the microscope array and the object, said scanning mechanism operating continuously along said linear direction of scan across the object;
calibrating said array microscope to derive correction factors to produce a uniform gain throughout said array microscope;
scanning the object to produce multiple adjacent image swaths of the object, each swath having a width defined by a field of view of a corresponding magnifying imaging system in the array and a length defined by said linear direction of scan across the object;
applying said correction factors to said multiple image swaths to obtain multiple swaths of corrected images; and
concatenating said multiple swaths of corrected images to produce a composite image of the object. - View Dependent Claims (11, 12, 13)
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14. A method of imaging an object with an array microscope comprising the following steps:
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providing a two-dimensional microscope array with a plurality of magnifying imaging systems disposed along a corresponding plurality of optical axes for imaging a picture of the object onto a detector, said plurality of magnifying imaging systems being arranged in rows and configured to image respective sections of the object, wherein said rows of imaging systems are staggered with respect to a linear direction of scan across the object, such that each of the imaging systems acquires image data corresponding to a respective continuous strip of the object along said linear direction of scan;
providing a scanning mechanism for producing a relative movement between the microscope array and the object, said scanning mechanism operating continuously along said linear direction of scan across the object;
calibrating the array microscope to derive correction factors designed to correct imaging characteristics of said magnifying imaging systems in the array microscope in order to normalize an output thereof and produce images with uniform optical properties;
scanning the object to produce multiple adjacent image swaths of the object, each swath having a width defined by a field of view of a corresponding magnifying imaging system in the array and a length defined by said linear direction of scan across the object;
applying said correction factors to said multiple image swaths to obtain multiple swaths of corrected images; and
concatenating said multiple swaths of corrected images to produce a composite image of the object. - View Dependent Claims (15)
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16. An array microscope for imaging an object comprising:
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a two-dimensional microscope array with a plurality of magnifying imaging systems disposed along a corresponding plurality of optical axes for imaging a picture of the object onto a detector, said plurality of magnifying imaging systems being arranged in rows and configured to image respective sections of the object, wherein said rows of imaging systems are staggered with respect to a linear direction of scan across the object, such that each of the imaging systems acquires image data corresponding to a respective continuous strip of the object along said linear direction of scan;
a scanning mechanism for producing a relative movement between the microscope array and the object, said scanning mechanism operating continuously along said linear direction of scan across the object so as to produce multiple adjacent image swaths of the object, each swath having a width defined by a field of view of the array microscope and a length defined by said scan across the object;
means for calibrating the array microscope to derive correction factors designed to correct imaging characteristics of said magnifying imaging systems in the array microscope in order to normalize an output thereof and produce images with uniform optical properties;
means for applying said correction factors to the multiple image swaths to obtain multiple swaths of corrected images; and
means for concatenating the multiple swaths of corrected images to produce a composite image of the object;
wherein said calibrating means consists of sample surfaces with predetermined physical characteristics designed to produce target images with predetermined optical properties, so that deviations from said predetermined optical properties may be used to compute correction factors relative to said imaging characteristics. - View Dependent Claims (17)
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Specification