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학술지 Linear Stratified Approach Using Full Geometric Constraints for 3D Scene Reconstruction and Camera Calibration
Cited 6 time in scopus Download 1 time Share share facebook twitter linkedin kakaostory
저자
김재헌, 구본기
발행일
201302
출처
Optics Express, v.21 no.4, pp.4456-4474
ISSN
1094-4087
출판사
Optical Society of America(OSA)
DOI
https://dx.doi.org/10.1364/OE.21.004456
협약과제
12MT1200, 방통융합형 Full 3D 복원 기술 개발(표준화연계), 구본기
초록
This paper presents a new linear framework to obtain 3D scene reconstruction and camera calibration simultaneously from uncali-brated images using scene geometry. Our strategy uses the constraints of parallelism, coplanarity, colinearity, and orthogonality. These constraints can be obtained in general man-made scenes frequently. This approach can give more stable results with fewer images and allow us to gain the results with only linear operations. In this paper, it is shown that all the geometric constraints used in the previous works performed independently up to now can be implemented easily in the proposed linear method. The study on the situations that cannot be dealt with by the previous approaches is also presented and it is shown that the proposed method being able to handle the cases is more flexible in use. The proposed method uses a stratified approach, in which affine reconstruction is performed first and then metric reconstruction. In this procedure, the additional constraints newly extracted in this paper have an important role for affine reconstruction in practical situations. © 2013 Optical Society of America.
KSP 제안 키워드
3D Scene Reconstruction, Camera Calibration, Geometric constraints, Linear method, linear framework, linear operations