We present here a technique for passively sensing the three-dimensional structure of a scene using a single compact camera. The iris of a conventional camera is replaced by a mask with a prism array, forming multiple images, in which the vision disparities between the sub-images are extracted to compute depth. The arrangement of the prisms array can be regular or aperture coded. For a regular arrangement, each prism forms an independent sub-image that is viewed from a portion of the aperture, like many mini-cameras encapsulated in one aperture. If the angle of each prism is designed properly, the sub-images can be separated from each other on the plane of image detector, so that conventional methods of depth determination in stereo vision can be applied. On the other hand, the macro-prism array also can be arranged in aperture coded fashion. The coded aperture imaging method then can be employed here for depth sensing. Unlike the previous arrangement, the macro-prisms are positioned according to certain coding array, such as random array or non-redundant array, so that the images viewed from each prism are superimposed. In order to reconstruct the final depth image, a related decoding step for imaging processing is done. The passive range technique we introduced above should be considered as a multiple imaging problem. Since only a single compact camera is used, we avoid the need for extrinsic camera calibration, greatly reduced the computational demanding of correspondence problem. The use of refractive element, prism array, instead of pinhole array, can greatly increase the light transmission and the resolution of images.
[1]
Boubakeur Boufama,et al.
Multibaseline stereo using a single-lens camera
,
2003,
Proceedings 2003 International Conference on Image Processing (Cat. No.03CH37429).
[2]
Haitao Lang,et al.
A three-dimensional imaging method based on the principle of coded aperture imaging
,
2005,
SPIE Optics + Photonics.
[3]
Takeo Kanade,et al.
An Iterative Image Registration Technique with an Application to Stereo Vision
,
1981,
IJCAI.
[4]
Christopher M. Brown,et al.
Multiplex imaging with multiple-pinhole cameras
,
1974
.
[5]
Edward H. Adelson,et al.
Single Lens Stereo with a Plenoptic Camera
,
1992,
IEEE Trans. Pattern Anal. Mach. Intell..
[6]
K A Nugent.
Coded aperture imaging: a Fourier space analysis.
,
1987,
Applied optics.
[7]
Berthold K. P. Horn,et al.
Determining Optical Flow
,
1981,
Other Conferences.
[8]
Jake K. Aggarwal,et al.
Structure from stereo-a review
,
1989,
IEEE Trans. Syst. Man Cybern..