Unsupervised multiresolution on segmentation for images with low depth of field

James Z. Wang; Jia Li; Robert M. Gray; Gio Wiederhold

doi:10.1109/34.899949

Unsupervised multiresolution on segmentation for images with low depth of field

James Z. Wang
, Jia Li
, Robert M. Gray
, Gio Wiederhold

Research output: Contribution to journal › Article › peer-review

145 Scopus citations

Abstract

Unsupervised segmentation of images with low depth of field (DOF) is highly useful in various applications including imge enhancement for digital cameras, target recognition, image indexing for content-based retrieval, and 3D microscopic image analysis. This paper describes a novel multiresolution image segmentation algorithm for low DOF images. The algorithm is designed to separate a sharply focused object-of-interest from other foreground or background objects. The algorithm is fully automatic in that all parameters are image independent. A multiscale approach based on high frequency wavelet coefficients and their statistics is used to perform context-dependent classification of individual blocks of the image. Unlike other edge-based approaches, our algorithm does not rely on the process of connecting object boundaries. The algorithm has achieved high accuracy when tested on more than 100 low DOF images, many with inhomogeneous foreground or background distractions. Compared with the state of the art algorithms, this new algorithm provides better accuracy at higher speed.

Original language	English (US)
Pages (from-to)	85-90
Number of pages	6
Journal	IEEE Transactions on Pattern Analysis and Machine Intelligence
Volume	23
Issue number	1
DOIs	https://doi.org/10.1109/34.899949
State	Published - 2001

All Science Journal Classification (ASJC) codes

Software
Computer Vision and Pattern Recognition
Computational Theory and Mathematics
Artificial Intelligence
Applied Mathematics

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10.1109/34.899949

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@article{02213a024e5a498bbab04443afc647ae,

title = "Unsupervised multiresolution on segmentation for images with low depth of field",

abstract = "Unsupervised segmentation of images with low depth of field (DOF) is highly useful in various applications including imge enhancement for digital cameras, target recognition, image indexing for content-based retrieval, and 3D microscopic image analysis. This paper describes a novel multiresolution image segmentation algorithm for low DOF images. The algorithm is designed to separate a sharply focused object-of-interest from other foreground or background objects. The algorithm is fully automatic in that all parameters are image independent. A multiscale approach based on high frequency wavelet coefficients and their statistics is used to perform context-dependent classification of individual blocks of the image. Unlike other edge-based approaches, our algorithm does not rely on the process of connecting object boundaries. The algorithm has achieved high accuracy when tested on more than 100 low DOF images, many with inhomogeneous foreground or background distractions. Compared with the state of the art algorithms, this new algorithm provides better accuracy at higher speed.",

author = "Wang, \{James Z.\} and Jia Li and Gray, \{Robert M.\} and Gio Wiederhold",

note = "Funding Information: This work was supported in part by the US National Science Foundation under grant MIP-9706284 and grant IIS-9817511. The authors would like to thank Oscar Firschein, visiting scholar at Stanford University, and various researchers including Martin A. Fischler and Quang-Tuan Luong of the SRI AI Center for the valuable discussions in computer vision and photography. They would like to thank Du-Ming Tsai for providing comparison results. They would also like to thank the reviews for their constructive comments. Research was performed when J.Z. Wang was with the Departments of Computer Science and Medical Informatics, Stanford University and J. Li was with the Department of Electrical Engineering, Stanford University.",

year = "2001",

doi = "10.1109/34.899949",

language = "English (US)",

volume = "23",

pages = "85--90",

journal = "IEEE Transactions on Pattern Analysis and Machine Intelligence",

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AU - Li, Jia

AU - Gray, Robert M.

AU - Wiederhold, Gio

N1 - Funding Information: This work was supported in part by the US National Science Foundation under grant MIP-9706284 and grant IIS-9817511. The authors would like to thank Oscar Firschein, visiting scholar at Stanford University, and various researchers including Martin A. Fischler and Quang-Tuan Luong of the SRI AI Center for the valuable discussions in computer vision and photography. They would like to thank Du-Ming Tsai for providing comparison results. They would also like to thank the reviews for their constructive comments. Research was performed when J.Z. Wang was with the Departments of Computer Science and Medical Informatics, Stanford University and J. Li was with the Department of Electrical Engineering, Stanford University.

PY - 2001

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N2 - Unsupervised segmentation of images with low depth of field (DOF) is highly useful in various applications including imge enhancement for digital cameras, target recognition, image indexing for content-based retrieval, and 3D microscopic image analysis. This paper describes a novel multiresolution image segmentation algorithm for low DOF images. The algorithm is designed to separate a sharply focused object-of-interest from other foreground or background objects. The algorithm is fully automatic in that all parameters are image independent. A multiscale approach based on high frequency wavelet coefficients and their statistics is used to perform context-dependent classification of individual blocks of the image. Unlike other edge-based approaches, our algorithm does not rely on the process of connecting object boundaries. The algorithm has achieved high accuracy when tested on more than 100 low DOF images, many with inhomogeneous foreground or background distractions. Compared with the state of the art algorithms, this new algorithm provides better accuracy at higher speed.

AB - Unsupervised segmentation of images with low depth of field (DOF) is highly useful in various applications including imge enhancement for digital cameras, target recognition, image indexing for content-based retrieval, and 3D microscopic image analysis. This paper describes a novel multiresolution image segmentation algorithm for low DOF images. The algorithm is designed to separate a sharply focused object-of-interest from other foreground or background objects. The algorithm is fully automatic in that all parameters are image independent. A multiscale approach based on high frequency wavelet coefficients and their statistics is used to perform context-dependent classification of individual blocks of the image. Unlike other edge-based approaches, our algorithm does not rely on the process of connecting object boundaries. The algorithm has achieved high accuracy when tested on more than 100 low DOF images, many with inhomogeneous foreground or background distractions. Compared with the state of the art algorithms, this new algorithm provides better accuracy at higher speed.

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Unsupervised multiresolution on segmentation for images with low depth of field

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