IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0384135
(2006-03-16)
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등록번호 |
US-7616254
(2009-11-23)
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발명자
/ 주소 |
- Wong, Earl Quong
- Kushida, Hidenori
- Nakamura, Makibi
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출원인 / 주소 |
- Sony Corporation
- Sony Electronics Inc.
|
대리인 / 주소 |
Blakely, Sokoloff, Taylor & Zafman LLP
|
인용정보 |
피인용 횟수 :
11 인용 특허 :
27 |
초록
▼
An imaging acquisition system that generates a picture depth from an auto focus curve generated from picture of a three dimensional spatial scene is described. The auto focus curve comprises a step edge. The system generates the depth based on the step edge and a reference auto focus normalization
An imaging acquisition system that generates a picture depth from an auto focus curve generated from picture of a three dimensional spatial scene is described. The auto focus curve comprises a step edge. The system generates the depth based on the step edge and a reference auto focus normalization curve.
대표청구항
▼
What is claimed is: 1. A computerized method comprising: receiving an auto focus curve that is associated with a picture of a three dimensional spatial scene, wherein the auto focus curves comprises a step edge; and computing a picture depth value based on the step edge and an auto focus normalizat
What is claimed is: 1. A computerized method comprising: receiving an auto focus curve that is associated with a picture of a three dimensional spatial scene, wherein the auto focus curves comprises a step edge; and computing a picture depth value based on the step edge and an auto focus normalization reference curve, wherein the auto focus normalization reference curve correlates the step edge to a known amount of blurring and the computing the picture depth value comprises detecting the step edge in the auto focus curve, shifting the step edge to have a baseline of zero; computing a one dimensional gradient of the step edge; locating a center of the step edge; computing a defocus measurement value for the step edge based on the one dimensional step edge and step edge center; deriving a picture blur value based on the defocus measurement value and the auto focus normalization reference curve; and computing the picture depth value based on the picture blur value. 2. The computerized method of claim 1, further comprising: generating a plurality of auto focus normalization reference curves for different step edge angles. 3. The computerized method of claim 2, further comprising: selecting the auto focus normalization reference curve from the plurality of auto focus normalization reference curves, where the auto focus normalization reference curve is associated with an attribute selected from the group consisting of a step edge angle and a step edge contrast. 4. The computerized method of claim 1, further comprising: generating a picture depth map by computing a plurality of picture depth values for a plurality of step edges. 5. The computerized method of claim 4, further comprising: applying a clustering algorithm to the picture depth map. 6. The computerized method of claim 1, wherein the computing the picture depth value comprises: calculating, from the picture blur value the picture depth map value using the equation d o=fD D-f-2 .times. r .times. .times. f number, where f is the camera lens focal length, D the distance between the image plane inside the camera and the lens, r is the blur radius of the image on the image plane and f.sub.number is the f.sub.number of the camera lens. 7. A machine readable medium having executable instructions to cause a processor to perform a method comprising: receiving an auto focus curve, that is associated with a picture of a three dimensional spatial scene, wherein the auto focus curves comprises a step edge; and computing a picture depth value based on the step edge and an auto focus normalization reference curve, wherein the auto focus normalization reference curve correlates the step edge to a known amount of blurring and the computing the picture depth value comprises detecting the step edge in the auto focus curve; shifting the step edge to have a baseline of zero; computing a one dimensional gradient of the step edge; locating a center of the step edge; computing a defocus measurement value for the step edge based on the one dimensional step edge and step edge center; deriving a picture blur value based on the defocus measurement value and the auto focus normalization reference curve; and computing the picture depth value based on the picture blur value. 8. The machine readable storage medium of claim 7, further comprising: generating a plurality of auto focus normalization reference curves for different step edge angles. 9. The machine readable medium of claim 8, further comprising: selecting the auto focus normalization reference curve from the plurality of auto focus normalization reference curves, where the auto focus normalization reference curve is associated with an attribute selected from the group consisting of a step edge angle and a step edge contrast. 10. The machine readable storage medium of claim 7, further comprising: generating a picture depth map by computing a plurality of picture depth values for a plurality of step edges. 11. The machine readable storage medium of claim 10, further comprising: applying a clustering algorithm to the picture depth map. 12. The machine readable medium of claim 7, wherein the computing the picture depth value comprises: calculating, from the picture blur value, the picture depth map value using the equation d o =fD/D-f-2 .times. r .times. .times. f number, where f is the camera lens focal length, D the distance between the image plane inside the camera and the lens, r is the blur radius of the image on the image plane and f .sub .number is the f.sub. number of the camera lens. 13. An apparatus comprising: means for receiving an auto focus curve, that is associated with a picture of a three dimensional spatial scene, wherein the auto focus curves comprises a step edge; and means for computing a picture depth value based on the step edge and an auto focus normalization reference curve wherein the auto focus normalization reference curve correlates the step edge to a known amount of blurring and the means for computing the picture depth value further comprises means for detecting the step edge in the auto focus curve; means for shifting the step edge to have a baseline of zero; means for computing a one dimensional gradient of the step edge; means for locating a center of the step edge, means for computing a defocus measurement value for the step edge based on the one dimensional step edge and step edge center; means for deriving a picture blur value based on the defocus measurement value and the auto focus normalization reference curve; and means for computing the picture depth value based on the picture blur value. 14. The apparatus of claim 13, further comprising: means for generating a plurality of auto focus normalization reference curves for different step edge angles. 15. The apparatus of claim 14, further comprising: means for selecting the auto focus normalization reference curve from the plurality of auto focus normalization reference curves, where the auto focus normalization reference curve is associated with an attribute selected from the group consisting of a step edge angle and a step edge contrast. 16. The apparatus of claim 13, further comprising: means for generating a picture depth map by computing a plurality of picture depth values for a plurality of step edges. 17. A system comprising: a processor; a memory coupled to the processor though a bus; and a process executed from the memory by the processor to cause the processor to receive an auto focus curve, that is associated with a picture of a three dimensional spatial scene, wherein the auto focus curves comprises a step edge; and compute a picture depth value based on the step edge and an auto focus normalization reference curve, wherein the auto focus normalization reference curve correlates the step edge to a known amount of blurring and the process further causes the processor to detect the step edge in the auto focus curve, shift the step edge to have a baseline of zero, compute an one dimensional gradient of the step edge, locate a center of the step edge, compute a defocus measurement value for the step edge based on the one dimensional step edge and step edge center, derive a picture blur value based on the defocus measurement value and the auto focus normalization reference curve, and compute the picture depth value based on the picture blur value. 18. The system of claim 17, wherein the process further causes the processor to generate a plurality of auto focus normalization reference curves for different step edge angles. 19. The system of claim 18, wherein the process further causes the processor to select the auto focus normalization reference curve from the plurality of auto focus normalization reference curves, where the auto focus normalization reference curve is associated with an attribute selected from the group consisting of a step edge angle and a step edge contrast. 20. The system of claim 17, wherein the process further causes the processor to generate a picture depth map by computing a plurality of picture depth values for a plurality of step edges.
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