IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0704238
(2007-02-09)
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등록번호 |
US-7609319
(2009-11-10)
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우선권정보 |
JP-2006-032088(2006-02-09) |
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Birch, Stewart, Kolasch & Birch, LLP
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인용정보 |
피인용 횟수 :
3 인용 특허 :
6 |
초록
▼
A photography device has an AF mechanism including: a CCD; an analog signal processing section; an image input controller; an AF processing section; a CPU; and a focusing lens driving section. The AF mechanism operates to focus an imaging lens on a subject. If an image represented by output from the
A photography device has an AF mechanism including: a CCD; an analog signal processing section; an image input controller; an AF processing section; a CPU; and a focusing lens driving section. The AF mechanism operates to focus an imaging lens on a subject. If an image represented by output from the CCD does not include a specific low contrast subject, image data representing the image is passed through a first high frequency filter that transmits components having frequencies greater than or equal to a first cutoff frequency, and a focus evaluation value is determined based on the transmitted components. If the image includes the specific subject, the image data is passed through a second high frequency filter that transmits components having frequencies greater than or equal to a second cutoff frequency, lower than the first cutoff frequency, and a focus evaluation value is determined based on the transmitted components.
대표청구항
▼
What is claimed is: 1. A focusing position determining method to be incorporated in an automatic focusing method, comprising the steps of: moving an imaging lens along the direction of the optical axis thereof within a range of motion; outputting an output signal that represents the contrast within
What is claimed is: 1. A focusing position determining method to be incorporated in an automatic focusing method, comprising the steps of: moving an imaging lens along the direction of the optical axis thereof within a range of motion; outputting an output signal that represents the contrast within an image; and setting the imaging lens at a position at which a focus evaluation value that corresponds to the contrast within an image assumes a peak value; the focusing position determining method comprising the steps of: judging whether a specific low contrast subject is included in an image represented by the output signal of the imaging means; passing image data that represents the image through a first high frequency filter that only transmits high frequency components having frequencies greater than or equal to a first cutoff frequency, and obtaining the focus evaluation value based on the high frequency components transmitted by the first high frequency filter, in the case that the specific subject is not included in the image; and passing image data that represents the image through a second high frequency filter that only transmits high frequency components having frequencies greater than or equal to a second cutoff frequency, which is lower than the first cutoff frequency, and obtaining the focus evaluation value based on the high frequency components transmitted by the second high frequency filter, in the case that the specific subject is included in the image. 2. A focusing position determining method as defined in claim 1, wherein: the size of the specific subject is obtained, based on the output signal from the imaging means; and the second cutoff frequency is lowered the greater the size of the subject is. 3. A focusing position determining method as defined in claim 1, wherein: the specific subject is a human face, or a facial component that constitutes a human face. 4. A focusing position determining method as defined in claim 2, wherein: the specific subject is a human face, or a facial component that constitutes a human face. 5. A focusing position determining method to be employed by a photography device, comprising: an imaging lens; imaging lens moving means, for moving the imaging lens along the direction of the optical axis thereof within a range of motion; and imaging means, for outputting an output signal that represents the contrast within an image; the imaging lens, the imaging lens moving means, and the imaging means forming an automatic focusing mechanism that sets the imaging lens at a position at which a focus evaluation value that corresponds to the contrast within an image assumes a peak value; the focusing position determining method comprising the steps of: judging whether a specific low contrast subject is included in an image represented by the output signal of the imaging means; passing image data that represents the image through a first high frequency filter that only transmits high frequency components having frequencies greater than or equal to a first cutoff frequency, and obtaining the focus evaluation value based on the high frequency components transmitted by the first high frequency filter, in the case that the specific subject is not included in the image; passing image data that represents the image through a second high frequency filter that only transmits high frequency components having frequencies greater than or equal to a second cutoff frequency, which is lower than the first cutoff frequency, and determining an unconfirmed focus evaluation value based on the high frequency components transmitted by the second high frequency filter, in the case that the specific subject is included in the image; designating the unconfirmed focus evaluation value to be the focus evaluation value if the reliability of the unconfirmed focus evaluation value is greater than or equal to a predetermined reliability threshold value; and passing the image data through the first high frequency filter, obtaining a focus evaluation value based on the high frequency components transmitted by the first high frequency filter, and designating the focus evaluation value to be the focus evaluation value of the image that includes the specific subject, if the reliability of the unconfirmed focus evaluation value is less than the predetermined reliability threshold value. 6. A focusing position determining method as defined in claim 5, wherein: the size of the specific subject is obtained, based on the output signal from the imaging means; and the second cutoff frequency is lowered the greater the size of the subject is. 7. A focusing position determining method as defined in claim 5, wherein: the specific subject is a human face, or a facial component that constitutes a human face. 8. A focusing position determining method as defined in claim 6, wherein: the specific subject is a human face, or a facial component that constitutes a human face. 9. A focusing position determining apparatus to be employed in a photography device, comprising: an imaging lens; imaging lens moving means, for moving the imaging lens along the direction of the optical axis thereof within a range of motion; and imaging means, for outputting an output signal that represents the contrast within an image; the imaging lens, the imaging lens moving means, and the imaging means forming an automatic focusing mechanism that sets the imaging lens at a position at which a focus evaluation value that corresponds to the contrast within an image assumes a peak value; the focusing position determining apparatus comprising: a first high frequency filter that only transmits high frequency components having frequencies greater than or equal to a first cutoff frequency; a second high frequency filter that only transmits high frequency components having frequencies greater than or equal to a second cutoff frequency, which is lower than the first cutoff frequency; judging means, for judging whether an image represented by output signals of the imaging means includes a specific low contrast subject; control means, for inputting image data that represents the image into the first high frequency filter in the case that the judging means judges that the specific subject is not included in the image, and for inputting the image data into the second high frequency filter in the case that the judging means judges that the specific subject is included in the image; and means for obtaining the focus evaluation value, based on the high frequency components output from the first or second high frequency filter. 10. A focusing position determining apparatus as defined in claim 9, further comprising: filter control means, for obtaining the size of the specific subject, based on the output signal from the imaging means, and lowering the second cutoff frequency the greater the size of the subject is. 11. A focusing position determining apparatus as defined in claim 9, wherein: the judging means judges whether a human face or a facial component that constitutes a human face is included in the image as the specific subject. 12. A focusing position determining apparatus as defined in claim 10, wherein: the judging means judges whether a human face or a facial component that constitutes a human face is included in the image as the specific subject. 13. A focusing position determining apparatus to be employed in a photography device, comprising: an imaging lens; imaging lens moving means, for moving the imaging lens along the direction of the optical axis thereof within a range of motion; and imaging means, for outputting an output signal that represents the contrast within an image; the imaging lens, the imaging lens moving means, and the imaging means forming an automatic focusing mechanism that sets the imaging lens at a position at which a focus evaluation value that corresponds to the contrast within an image assumes a peak value; the focusing position determining apparatus comprising: a first high frequency filter that only transmits high frequency components having frequencies greater than or equal to a first cutoff frequency; a second high frequency filter that only transmits high frequency components having frequencies greater than or equal to a second cutoff frequency, which is lower than the first cutoff frequency; judging means, for judging whether an image represented by output signals of the imaging means includes a specific low contrast subject; control means, for inputting image data that represents the image into the first high frequency filter in the case that the judging means judges that the specific subject is not included in the image, and for inputting the image data into the second high frequency filter in the case that the judging means judges that the specific subject is included in the image; means for obtaining the focus evaluation value, based on the high frequency components output from the first or second high frequency filter; and focus evaluation value selecting means, for judging whether the reliability of the focus evaluation value determined based on the high frequency components output from the second high frequency filter is greater than or equal to a reliability threshold value, outputting the focus evaluation value to be subjected to peak value detection if the reliability is greater than or equal to a predetermined reliability threshold value, inputting the image data through the first high frequency filter, obtaining a focus evaluation value based on the high frequency components transmitted by the first high frequency filter to be subjected to peak value detection if the reliability is less than the predetermined reliability threshold value. 14. A focusing position determining apparatus as defined in claim 13, further comprising: filter control means, for obtaining the size of the specific subject, based on the output signal from the imaging means, and lowering the second cutoff frequency the greater the size of the subject is. 15. A focusing position determining apparatus as defined in claim 13, wherein: the judging means judges whether a human face or a facial component that constitutes a human face is included in the image as the specific subject. 16. A focusing position determining apparatus as defined in claim 14, wherein: the judging means judges whether a human face or a facial component that constitutes a human face is included in the image as the specific subject.
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