Phased illumination method for image capture system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04N-001/387
G06K-009/32
출원번호
US-0768990
(2007-06-27)
등록번호
US-8203764
(2012-06-19)
발명자
/ 주소
King, Anthony Michael
Miller, Mark Eric
출원인 / 주소
Lexmark International, Inc.
인용정보
피인용 횟수 :
8인용 특허 :
14
초록▼
Imaging devices and methods that permit the capture of digital images of an original document sequentially illuminated by a plurality of light sources. In one aspect, a first digital image is captured using illumination from a first illumination angle, a second digital image is captured using illumi
Imaging devices and methods that permit the capture of digital images of an original document sequentially illuminated by a plurality of light sources. In one aspect, a first digital image is captured using illumination from a first illumination angle, a second digital image is captured using illumination from a second illumination angle, and the first and second digital images are combined to obtain a composite digital image of the document. The obtained composite digital image is free of reflection artifacts corresponding to the first and second illumination angles.
대표청구항▼
1. A method of generating an image of a document disposed on a target bed, comprising: capturing a first digital image of the document using illumination from a first illumination angle;capturing a second digital image of the document using illumination from a second illumination angle;combining the
1. A method of generating an image of a document disposed on a target bed, comprising: capturing a first digital image of the document using illumination from a first illumination angle;capturing a second digital image of the document using illumination from a second illumination angle;combining the first and second digital images to obtain a composite digital image of the document free of reflection artifacts corresponding to the first and second illumination angles; andcalculating a weighted average of image data from an overlap of the first digital image and the second digital image in the composite digital image,wherein the first digital image corresponds to a first section of the document, the second digital image corresponds to a second section of the document overlapping said first section, and wherein the calculating the weighted average is performed such that the image data from the first section are weighted more heavily in a top end of the overlap. 2. The method of claim 1, wherein capturing the first digital image comprises capturing color plane images corresponding to a sequence of differently colored illuminations and processing the color plane images to form the first digital image. 3. The method of claim 1, wherein capturing the first digital image comprises receiving first image data from a first subset of image sensor elements disposed in an image sensor, and wherein capturing the second digital image comprises receiving second image data from a second subset of said image sensor elements; wherein said first and second subsets of image sensor elements are at least partially non-overlapping. 4. The method of claim 1, wherein capturing a first digital image of the document using the first illumination angle comprises capturing the first digital image using light reflected from the first illumination angle. 5. The method of claim 1, wherein said first and second sections of the document are at least partially non-overlapping. 6. The method of claim 1, further comprising capturing one or more additional digital images of the document using illumination from corresponding one or more additional illumination angles, wherein combining the first and second digital images to obtain a composite digital image of the document comprises combining the first and second digital images with the one or more additional digital images to obtain a composite digital image of the document free of reflection artifacts corresponding to the first, second, and one or more additional illumination angles. 7. An imaging device comprising: a target bed;a first illumination source disposed to illuminate a document positioned on the target bed from a first illumination angle;a second illumination source disposed to illuminate said document from a second illumination angle;an imaging unit disposed to capture a first digital image of said document using illumination from the first illumination source and to capture a second digital image of the document using illumination from the second illumination source; andan image-processing unit configured to combine the first and second digital images to obtain a composite digital image of the document free from reflection artifacts corresponding to the first and second illumination angles and to calculate a weighted average of image data from an overlap region of the first digital image and the second digital image in the composite digital image;wherein the first digital image corresponds to a first section of the document, the second digital image corresponds to a second section of the document overlapping said first section, such that the first and second digital images each comprise said image data corresponding to the overlap region, and wherein the calculating the weighted average is performed such that said image data from the first section are weighted more heavily in a top end of the overlap region. 8. The imaging device of claim 7, wherein the first illumination source comprises one of a plurality of light-emitting diodes, an incandescent light, and a cold cathode fluorescent light. 9. The imaging device of claim 7, wherein the first illumination source comprises a reflector disposed to reflect light onto the document from the first illumination angle. 10. The imaging device of claim 7, wherein the first illumination source comprises a plurality of individually selectable colored light sources. 11. The imaging device of claim 10, wherein the imaging unit is configured to capture color plane images corresponding to a plurality of sequential colored illuminations and to process said color plane images to form the first digital image. 12. The imaging device of claim 7, wherein the imaging unit is configured to receive first image data for the first digital image from a first subset of image sensor elements disposed in the imaging device and to receive second image data for the second digital image from a second subset of said image sensor elements, wherein said first and second subsets of image sensor elements are at least partially non-overlapping. 13. The imaging device of claim 7, further comprising a light shield disposed to prevent light from the first illumination source from directly illuminating the second illumination source. 14. The imaging device of claim 7, further comprising one or more additional illumination sources disposed to illuminate a document positioned on the target bed from one or more additional illumination angles; wherein the imaging unit is further disposed to capture one or more additional digital images of said document using corresponding illumination from each of the one or more additional illumination angles, and is configured to obtain a composite digital image by combining the first, second, and one or more additional digital images such that the composite digital image is free from reflection artifacts corresponding to any of the first, second, and one or more additional illumination angles. 15. A method of generating an image of a document disposed on a target bed, comprising: capturing a first digital image of the document using illumination from a first illumination angle, wherein the first digital image contains a first reflection artifact corresponding to the first illumination angle;capturing a second digital image of the document using illumination from a second illumination angle, wherein the second digital image contains a second reflection artifact corresponding to the second illumination angle;cropping the first and second digital images to obtain cropped digital images, wherein the cropped digital images are free of reflection artifacts;combining the cropped digital images to obtain a composite digital image; andcalculating a weighted average of image data from an overlap of the first and second digital images in the composite digital image,wherein the first digital image corresponds to a first section of the document, the second digital image corresponds to a second section of the document overlapping the first section, and wherein the calculating the weighted average of the image data is performed such that the image data from the first section are weighted more heavily in a top end of the overlap. 16. The method of claim 1, wherein capturing the first digital image comprises receiving the image data from a plurality of image sensor elements and cropping the received image data to form the first digital image. 17. The imaging device of claim 7, wherein the imaging unit is configured to receive image data for the first digital image from image sensor elements disposed in the imaging device and to crop said image data to form the first digital image.
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