A Local Likelihood Active Contour Model for Medical Image Segmentation

Zhang, Jie

30 September 2007

No description available.

Computer Science

Bayesian

posterior probability

Chan-Vese

Gaussian assumptions

Contour Extraction of Drosophila Embryos Using Active Contours in Scale Space

Ananta, Soujanya Siddavaram

01 December 2012

Contour extraction of Drosophila embryos is an important step to build a computational system for pattern matching of embryonic images which aids in the discovery of genes. Automatic contour extraction of embryos is challenging due to several image variations such as size, shape, orientation and neigh- boring embryos such as touching and non-touching embryos. In this thesis, we introduce a framework for contour extraction based on the connected components in the gaussian scale space of an embryonic image. The active contour model is applied on the images to refine embryo contours. Data cleaning methods are applied to smooth the jaggy contours caused by blurred embryo boundaries. The scale space theory is applied to improve the performance of the result. The active contour adjusts better to the object for finer scales. The proposed framework contains three components. In the first component, we find the connected components of the image. The second component is to find the largest component of the image. Finally, we analyze the largest component across scales by selecting the optimal scale corresponding to the largest component having largest area. The optimal scale at which maximum area is attained is assumed to give information about the feature being extracted. We tested the proposed framework on BDGP images, and the results achieved promising accuracy in extracting the targeting embryo.

contour extraction

Chan-Vese segmentation

energy parameter alpha

Computer Sciences

Genetics

Theory and Algorithms

Three Stage Level Set Segmentation of Mass Core, Periphery, and Spiculations for Automated Image Analysis of Digital Mammograms

Ball, John E

05 May 2007

In this dissertation, level set methods are employed to segment masses in digital mammographic images and to classify land cover classes in hyperspectral data. For the mammography computer aided diagnosis (CAD) application, level set-based segmentation methods are designed and validated for mass periphery segmentation, spiculation segmentation, and core segmentation. The proposed periphery segmentation uses the narrowband level set method in conjunction with an adaptive speed function based on a measure of the boundary complexity in the polar domain. The boundary complexity term is shown to be beneficial for delineating challenging masses with ill-defined and irregularly shaped borders. The proposed method is shown to outperform periphery segmentation methods currently reported in the literature. The proposed mass spiculation segmentation uses a generalized form of the Dixon and Taylor Line Operator along with narrowband level sets using a customized speed function. The resulting spiculation features are shown to be very beneficial for classifying the mass as benign or malignant. For example, when using patient age and texture features combined with a maximum likelihood (ML) classifier, the spiculation segmentation method increases the overall accuracy to 92% with 2 false negatives as compared to 87% with 4 false negatives when using periphery segmentation approaches. The proposed mass core segmentation uses the Chan-Vese level set method with a minimal variance criterion. The resulting core features are shown to be effective and comparable to periphery features, and are shown to reduce the number of false negatives in some cases. Most mammographic CAD systems use only a periphery segmentation, so those systems could potentially benefit from core features.

Level Sets

Stellate Lesions

Level Sets

Image segmentation

Image enhancement

Feature Extraction

Digital Mammography

Discriminant Analysis

Adaptive systems

Breast Cancer

Cancer

Classification

Computer Aided Diagnosis

Spiculations

Image Segmentation

Digital Mammography

Computer Aided Diagnosis

Tumor

Mammography

Receiver Operating Characteristics

Chan-Vese