2014
DOI: 10.1109/tbme.2013.2295376
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Automatic Segmentation of a Fetal Echocardiogram Using Modified Active Appearance Models and Sparse Representation

Abstract: A novel approach is presented to automatically segment the left ventricle in fetal echocardiograms. The proposed approach strategically integrates sparse representation, global constraint, and local refinement algorithms into an active appearance model (AAM) framework. In the training stage, we construct an enhanced AAM texture model to deal with the speckle and texture ambiguities. In the segmentation stage, the initial pose is located by a sparse representation method. Globally constrained points and local f… Show more

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Cited by 14 publications
(3 citation statements)
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“…When an image's US speckles are diminished, it becomes easier to analyze the image, whether static or moving. Methodologies for minimizing US erratic noise include Rayleigh-based reduced filtration as well as anisotropic dispersion [93,94], probability-based patch-based estimation of maximum likelihood [95], and just a combined effect of dimension reduction and nonlocal means [96]. After detecting ROI, structures interested in it can be identified.…”
Section: Nondeep Learning Approaches (Ndla)mentioning
confidence: 99%
See 1 more Smart Citation
“…When an image's US speckles are diminished, it becomes easier to analyze the image, whether static or moving. Methodologies for minimizing US erratic noise include Rayleigh-based reduced filtration as well as anisotropic dispersion [93,94], probability-based patch-based estimation of maximum likelihood [95], and just a combined effect of dimension reduction and nonlocal means [96]. After detecting ROI, structures interested in it can be identified.…”
Section: Nondeep Learning Approaches (Ndla)mentioning
confidence: 99%
“…An active appearance model (AAM) was used to determine the fetal heart structure [93]. Guo et al [96] used an improved AAM model with a sparse representation of the left ventricle (LV) [15][16][17].…”
Section: Nondeep Learning Approaches (Ndla)mentioning
confidence: 99%
“…Previously reported methods for echo segmentation used low-level image processing-based methods such as watershed ( Cheng et al, 2005 ; Lacerda et al, 2008 ) and Otsu thresholding ( Santos et al, 2007 ), deformable model-based methods such as active contour ( Chen et al, 2007 ), B-spline snake ( Marsousi et al, 2010 ; Oktay and Akgul, 2009 ) and level set ( Nandagopalan et al, 2010 ), and statistical model-based methods such as active shape ( Guo et al, 2014 ; Beymer et al, 2009 ) and active appearance models ( Belous et al, 2013 ).…”
Section: Introductionmentioning
confidence: 99%