Digital image processing (2nd ed.)
Digital image processing (2nd ed.)
On active contour models and balloons
CVGIP: Image Understanding
Image Segmentation Based on the Integration of Markov Random Fields and Deformable Models
MICCAI '00 Proceedings of the Third International Conference on Medical Image Computing and Computer-Assisted Intervention
Analysis of trabecular bone structure using Fourier transforms and neural networks
IEEE Transactions on Information Technology in Biomedicine
Machine Vision and Applications
Multiple ROI selection based focal liver lesion classification in ultrasound images
Expert Systems with Applications: An International Journal
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The objective of this work is to classify few important kidney categories by characterizing the tissues of kidney region using the unique power spectral features with ultrasound as imaging modality. The images are acquired from male and female subjects of age 45驴卤驴15 years. Three kidney categories namely normal, medical renal diseases and cortical cyst are considered for the analysis. The acquired images are initially pre-processed to retain the pixels-of-interest. The proposed features depend on the spatial distribution of spectral components in the kidney region. A set of power spectral features $ {\rm P}^{{W_{1} }}_{T} ,\,{\rm P}^{{W_{2} }}_{T} ,\,{\rm P}^{{R_{1} }}_{{T - W_{{12}} }} ,\,{\rm P}^{{R_{2} }}_{{T - W_{{12}} }} ,\,{\rm P}^{{R_{3} }}_{{T - W_{{1d}} }} $ and $ {\rm P}^{{R_{4} }}_{{T - W_{{1d}} }} $ are estimated at the specific cut-off frequencies 驴 rc1 and 驴 rc2 in the spectrum and by considering global mean total power. The results obtained show that the features are highly content descriptive and provide discrete range of values for each kidney category. Such isolated feature values facilitate to identify the kidney categories objectively which may be used as a secondary observer. The proposed method and features also explores the possibility of implementing computer-aided diagnosis system exclusively for US kidney images.