IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0692869
(2010-01-25)
|
등록번호 |
US-8570427
(2013-10-29)
|
우선권정보 |
JP-2009-016481 (2009-01-28); JP-2009-038108 (2009-02-20) |
발명자
/ 주소 |
- Ohnishi, Naoyuki
- Takemura, Noeru
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
6 인용 특허 :
11 |
초록
▼
An image-capturing device includes: a micro-lens array in which a plurality of micro lenses are arrayed; a light reception element array having a plurality of groups of light reception elements respectively corresponding to the plurality of micro lenses, and that receives a ray bundle from an optica
An image-capturing device includes: a micro-lens array in which a plurality of micro lenses are arrayed; a light reception element array having a plurality of groups of light reception elements respectively corresponding to the plurality of micro lenses, and that receives a ray bundle from an optical system via the micro lenses and outputs a plurality of received light signals; a detection unit that detects a deviation amount of an image surface by the optical system when the received light signals were obtained; and an image creation unit that selects a portion of the plurality of received light signals on the basis of the deviation amount detected by the detection unit, and creates an image on the basis of that selected portion of the received light signals.
대표청구항
▼
1. An image-capturing device, comprising: a micro-lens array in which a plurality of micro lenses are arrayed;a plurality of groups of light reception elements respectively corresponding to each of the micro lenses, and that receives a ray bundle that has passed through an optical system via the plu
1. An image-capturing device, comprising: a micro-lens array in which a plurality of micro lenses are arrayed;a plurality of groups of light reception elements respectively corresponding to each of the micro lenses, and that receives a ray bundle that has passed through an optical system via the plurality of micro lenses and outputs a plurality of received light signals corresponding to each of the micro lenses;a detection region setting unit that sets a focus detection region for detecting a deviation amount of an image surface within an image of a photographic subject;a detection unit that detects the deviation amount of the image surface of the optical system for the focus detection region on the basis of the plurality of received light signals;an image creation unit that selects a portion of the plurality of received light signals corresponding to each of the micro lenses on the basis of the deviation amount of an image surface detected by the detection unit for the focus detection region set by the detection region setting unit, and creates an image on the basis of that selected portion of the received light signals;a focus adjustment unit that performs focus adjustment of the optical system on the basis of the deviation amount at the image surface detected by the detection unit; anda decision making unit that makes a decision as to whether or not the deviation amount of the image surface is less than a predetermined value,wherein:the image creation unit creates the image on the basis of the received light signals outputted by the light reception element array that has received a ray bundle from the optical system for which focus adjustment has been performed by the focus adjustment unit,when the decision making unit makes a decision, that the deviation amount of the image surface is less than a predetermined value, the image creation unit selects a portion of the received light signals from among the received light signals according to each of the micro lenses on the basis of the deviation amount of the image surface detected by the detection unit for the focus detection region set by the detection region setting unit, andwhen the decision making unit makes a decision that the deviation amount of the image surface exceeds the predetermined value, the focus adjustment unit performs focus adjustment of the optical system. 2. The image-capturing device according to claim 1, wherein: the specification unit comprises a recognition unit that recognizes a specified image within the image of the photographic subject; andthe detection unit detects the deviation amount of the image surface at the position of the image recognized by the recognition unit. 3. The image-capturing device according to claim 2, wherein: the recognition unit subdivides the image surface by the optical system into a plurality of regions, on the basis of the specified image that has been recognized; andthe detection unit detects the deviation amounts of the image surface for these regions subdivided by the recognition unit. 4. The image-capturing device according to claim 3, wherein, if the size of any one of the regions subdivided by the recognition unit is greater than a predetermined proportion of the image surface, the detection unit detects a plurality of deviation amounts of the image surface in that region. 5. The image-capturing device according to claim wherein the detection unit detects the deviation amount of the image surface at a position in the image created by the optical system on the basis of the received light signals at which the contrast is greater than a predetermined value. 6. The image-capturing device according to claim 1, further comprising: an initial image creation unit that creates an initial image on the basis of a portion of the plurality of received light signals; anda selection unit that selects an image of a specified subject from the initial image, whereinthe detection unit detects, in the initial image, the deviation amount of the image surface at the position of the image of the specified subject. 7. The image-capturing device according to claim 1, wherein the image creation unit determines a selection range when selecting a portion of the received light signals on the basis of the deviation amount of the image surface, according to the aperture value of the optical system. 8. The image-capturing device according to claim 1, wherein the light reception element array outputs the plurality of received light signals in a state in which the optical system is set to fully opened aperture. 9. The image-capturing device according to claim 6, wherein the initial image creation unit creates the initial image on the basis of the received light signals from light reception elements that are positioned at the approximate centers of the groups of light reception elements that respectively correspond to the plurality of micro lenses. 10. The image-capturing device according to claim 6, wherein the detection unit determines a position for detection of the deviation amount of the image surface, on the basis of at least one of the position and the size of an image included in the initial image. 11. The image-capturing device according to claim 10, wherein the detection unit determines a position and size priority order for the image, according to the type of photographic mode. 12. The image-capturing device according to claim 1, further comprising a recording control unit that records image data synthesized by the image creation unit upon a recording medium; and wherein the recording control unit records data for a plurality of images synthesized by the image creation unit on the basis of the plurality of received light signals outputted repeatedly by the light reception element array, on the recording medium as a video image. 13. An image creation method comprising: receiving a ray bundle that has passed through an optical system by an image-capturing device, which comprises a micro-lens array and a plurality of groups of light reception elements arranged so as to respectively correspond to each of the micro lenses;setting a focus detection region for detecting a deviation amount of an image surface within an image of a photographic subject;detecting the deviation amount of an image surface by the optical system for the focus detection region on the basis of the plurality of received light signals;capturing the image of the photographic subject by the image-capturing device; anddeciding whether or not the deviation amount of the image surface which was detected corresponding to the focus detection region is less than a predetermined value,wherein:when the decision was made that the deviation amount of the image surface is less than a predetermined value, selecting a portion of the plurality of received light signals corresponding to each of the micro lenses on the basis of the detected deviation amount of the image surface which was detected corresponding to the focus detection region; and creating an image on the basis of that selected portion of the received light signals; andwhen the decision was made that the deviation amount of the image surface exceeds the predetermined value, performing focus adjustment of the optical system. 14. A non-transitory computer-readable program product for causing a computer to execute: a step of receiving a ray bundle that has passed through an optical system by an image-capturing device, which comprises a micro-lens array and a plurality of groups of light reception elements arranged so as to respectively correspond to each of the micro lenses;a step of setting a focus detection region for detecting a deviation amount of an image surface within an image of a photographic subject;a step of detecting the deviation amount of an image surface by the optical system for the focus detection region on the basis of the plurality of received light signals;a step of capturing the image of the photographic subject by the image-capturing device; anda step of deciding whether or not the deviation amount of the image surface which was detected corresponding to the focus detection, region is less than a predetermine value wherein:when the decision was made that the deviation amount of the image surface is less than a predetermined value,a step of selecting a portion of the plurality of received light signals corresponding to each of the micro lenses on the basis of the detected deviation amount of the image surface which was detected corresponding to the focus detection region; anda step of creating an image on the basis of that selected portion of the received light signals: andwhen the decision was made that the deviation amount of the image surface exceeds the predetermined value, performing focus adiustment of the optical system.
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