Automatic focusing device, camera, and automatic focusing method
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0163798
(2002-06-05)
|
우선권정보 |
JP-2001-171154(2001-06-06) |
발명자
/ 주소 |
- Okisu,Noriyuki
- Tamai,Keiji
- Kitamura,Masahiro
- Nakanishi,Motohiro
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
3 |
초록
▼
An automatic focusing device capable of focus detection so that the in-focus state can be adequately realized, even if the magnification changes or a camera shake occurs. The sum total of the absolute values of the differences between two pixels in an evaluation area is calculated, the sum total of
An automatic focusing device capable of focus detection so that the in-focus state can be adequately realized, even if the magnification changes or a camera shake occurs. The sum total of the absolute values of the differences between two pixels in an evaluation area is calculated, the sum total of the square values of the differences between the two pixels in the evaluation area is calculated, and the evaluation value is obtained based on the sum total of the absolute values of the differences and the sum total of the square values of the differences to obtain the in-focus position of the taking lens.
대표청구항
▼
What is claimed is: 1. An automatic focusing device receiving an image signal comprising a plurality of pixels, and performing focusing control of a taking lens, comprising: difference absolute value calculating means for calculating absolute values of differences between pixel data of two pixels i
What is claimed is: 1. An automatic focusing device receiving an image signal comprising a plurality of pixels, and performing focusing control of a taking lens, comprising: difference absolute value calculating means for calculating absolute values of differences between pixel data of two pixels in a predetermined positional relationship and included in all or part of an evaluation area of the image signal, and calculating a sum total of the absolute values of the differences obtained for the evaluation area; difference square value calculating means for calculating square values of differences between the pixel data of the two pixels in the evaluation area, and calculating a sum total of the square values of the differences obtained for the evaluation area; evaluation value calculating means for calculating an evaluation value based on the sum total of the absolute values of the differences and the sum total of the square values of the differences; and controlling means for obtaining an in-focus position of the taking lens based on the evaluation value, and driving the taking lens to the in-focus position. 2. An automatic focusing device as claimed in claim 1, wherein the evaluation value calculating means calculates the evaluation value by dividing the sum total of the square values of the differences by the sum total of the absolute values of the differences. 3. An automatic focusing device as claimed in claim 1, wherein a plurality of evaluation areas is set for the image signal, the evaluation value is calculated for each of the evaluation areas, and the controlling means obtains the in-focus position by identifying a unitary evaluation value from among a plurality of evaluation values calculated for the evaluation areas. 4. An automatic focusing device as claimed in claim 1, wherein the pixel data is a luminance value of each pixel obtained from the image signal. 5. An automatic focusing device as claimed in claim 1, wherein the evaluation areas each comprise a plurality of pixel lines, and the calculations by the difference absolute value calculating means and the difference square value calculating means are performed every predetermined number of pixel lines. 6. A camera taking an image through a taking lens, comprising: image signal generating means for generating an image signal from the image obtained through the taking lens; difference absolute value calculating means for calculating absolute values of differences between pixel data of two pixels in a predetermined positional relationship and included in all or part of an evaluation area of the image signal, and calculating a sum total of the absolute values of the differences obtained for the evaluation area; difference square value calculating means for calculating square values of differences between the pixel data of the two pixels in the evaluation area, and calculating a sum total of the square values of the differences obtained for the evaluation area; evaluation value calculating means for calculating an evaluation value based on the sum total of the absolute values of the differences and the sum total of the square values of the differences; and controlling means for obtaining an in-focus position of the taking lens based on the evaluation value, and driving the taking lens to the in-focus position. 7. A camera as claimed in claim 6, wherein the evaluation value calculating means calculates the evaluation value by dividing the sum total of the square values of the differences by the sum total of the absolute values of the differences. 8. A camera as claimed in claim 6, wherein a plurality of evaluation areas is set for the image signal, the evaluation value is calculated for each of the evaluation areas, and the controlling means obtains the in-focus position by identifying a unitary evaluation value from among a plurality of evaluation values calculated for the evaluation areas. 9. A camera claimed in claim 6, wherein the pixel data is a brightness value of each pixel obtained from the image signal. 10. A camera as claimed in claim 6, wherein the evaluation areas each comprise a plurality of pixel lines, and the calculations by the difference absolute value calculating means and the difference square value calculating means are performed every predetermined number of pixel lines. 11. An automatic focusing method receiving an image signal comprising a plurality of pixels, and performing focusing control of a taking lens, comprising: (a) a step of calculating absolute values of differences between pixel data of two pixels in a predetermined positional relationship and included in all or part of an evaluation area of the image signal, and calculating a sum total of the absolute values of the differences obtained for the evaluation area; (b) a step of calculating square values of differences between the pixel data of the two pixels in the evaluation area, and calculating a sum total of the square values of the differences obtained for the evaluation area; (c) a step of calculating an evaluation value based on the sum total of the absolute values of the differences and the sum total of the square values of the differences; (d) a step of calculating the evaluation value at each lens position by repeating the steps while driving the taking lens; and (e) a step of obtaining an in-focus position of the taking lens based on the evaluation value at each lens position, and driving the taking lens to the in-focus position.
이 특허에 인용된 특허 (3)
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Kusaka Yosuke (Yokohama JPX) Utagawa Ken (Yokohama JPX) Uchiyama Shigeyuki (Tokyo JPX) Kuwata Chiyuki (Tokyo JPX) Yamano Shozo (Tokyo JPX), Focus detecting device.
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Suda, Yasuo, Focus detecting device with photoelectric conversion portion having microlens and with light blocking portion having first and second openings.
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Matsumura, Susumu, In-focus state detection device.
이 특허를 인용한 특허 (1)
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Jang, Sung-Kyu; Lee, Pyeong-Woo, Method for flicker detection in image signal.
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