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Aperture Evaluation for Defocus Deblurring and Extended Depth of Field

Changyin Zhou; Shree K. Nayar

Title:
Aperture Evaluation for Defocus Deblurring and Extended Depth of Field
Author(s):
Zhou, Changyin
Nayar, Shree K.
Date:
Type:
Technical reports
Department:
Computer Science
Permanent URL:
Series:
Columbia University Computer Science Technical Reports
Part Number:
CUCS-007-12
Publisher:
Department of Computer Science, Columbia University
Publisher Location:
New York
Abstract:
For a given camera setting, scene points that lie outside of depth of field (DOF) will appear defocused (or blurred). Defocus causes the loss of image details. To recover scene details from a defocused region, deblurring techniques must be employed. It is well known that the deblurring quality is closely related to the defocus kernel or point-spread-function (PSF), whose shape is largely determined by the aperture pattern of the camera. In this paper, we propose a comprehensive framework of aperture evaluation for the purpose of defocus deblurring, which takes the effects of image noise, deblurring algorithm, and the structure of natural images into account. By using the derived evaluation criterion, we are able to solve for the optimal coded aperture patterns. Extensive simulations and experiments are then conducted to compare the optimized coded apertures with previously proposed ones. The proposed framework of aperture evaluation is further extended to evaluate and optimize extended depth of field (EDOF) cameras. EDOF cameras (e.g., focal sweep and wavefront coding camera) are designed to produce PSFs which are less sensitive to depth variation, so that people can deconvolve the whole image using a single PSF without knowing scene depth. Different choices of camera parameters or the PSF to deconvolve with lead to different deblurring qualities. With the derived evaluation criterion, we are able to derive the optimal PSF to deconvolve with in a closed-form and optimize camera parameters for the best deblurring results.
Subject(s):
Computer science
Item views:
335
Metadata:
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