DocumentCode
1818775
Title
Hairline Fracture Detection using MRF and Gibbs Sampling
Author
Chowdhury, A.S. ; Bhattacharya, A. ; Bhandarkar, S.M. ; Datta, G.S. ; Yu, J.C. ; Figueroa, R.
Author_Institution
Dept. of Comput. Sci., Georgia Univ., Athens, GA
fYear
2007
fDate
Feb. 2007
Firstpage
56
Lastpage
56
Abstract
Detection of hairline fractures, representing points or areas of discontinuity in the bone, is a clinically challenging task, especially in presence of noise. The above problem is equally appealing from a computer vision or pattern recognition perspective since (a) traditional techniques for detection of corners, denoting points of surface discontinuity, typically fail in such cases and, (b) one needs to implicitly handle unknown local degradation in the image. A novel two-phase scheme for hairline mandibular fracture detection, that is robust to noise, is proposed. In the first phase, the hairline fractures are coarsely localized using statistical correlation and by exploiting the bilateral symmetry of the human mandible. In the second phase, the fractures are precisely identified and highlighted using a Markov random field (MRF) modeling approach coupled with maximum a posteriori probability (MAP) estimation. Gibbs sampling is used to maximize the posterior probability. Experimental results on computer tomography (CT) scans from real patients are presented
Keywords
Markov processes; bone; computer vision; computerised tomography; fracture; image sampling; maximum likelihood estimation; CT scans; Gibbs sampling; MAP estimation; Markov Random Field model; Maximum A Posteriori probability; bone discontinuity; computer tomography; computer vision; hairline fracture detection; mandibular fracture; pattern recognition; statistical correlation; Bones; Computer vision; Degradation; Humans; Markov random fields; Noise robustness; Pattern recognition; Probability; Sampling methods; Surface cracks;
fLanguage
English
Publisher
ieee
Conference_Titel
Applications of Computer Vision, 2007. WACV '07. IEEE Workshop on
Conference_Location
Austin, TX
ISSN
1550-5790
Print_ISBN
0-7695-2794-9
Electronic_ISBN
1550-5790
Type
conf
DOI
10.1109/WACV.2007.28
Filename
4118785
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