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25 April 1997 Fast fuzzy segmentation of magnetic resonance images: a prerequisite for real-time rendering
Norman R. Smith, Richard I. Kitney
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Proceedings Volume 3034, Medical Imaging 1997: Image Processing; (1997) https://doi.org/10.1117/12.274093
Event: Medical Imaging 1997, 1997, Newport Beach, CA, United States
Abstract
In order to obtain a meaningful 3D rendered image from Magnetic Resonance Image (MRI) data, it is first necessary to classify each voxel in the data set according to its corresponding tissue type. Existing techniques require long processing times and often need expert interaction. This paper describes a new method for automatic and real-time fuzzy segmentation. A histogram of reduced resolution grey scale data is first generated and used as input to a simplified version of the Fuzzy c-Means (FCM) algorithm. A new color blending scheme is proposed to allow the classified data to be displayed. When processing a 3D MRI data set, the original FCM algorithm took over 5 hours, whereas the new method took less than one second. Furthermore, the resulting images from both the original and the new methods were indistinguishable. Assessment of the results by an expert radiologist showed that the segmented structures corresponded very accurately with the actual anatomy. In addition, the color blended display enabled poorly defined boundaries and structures to be clearly identified.
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Norman R. Smith and Richard I. Kitney "Fast fuzzy segmentation of magnetic resonance images: a prerequisite for real-time rendering", Proc. SPIE 3034, Medical Imaging 1997: Image Processing, (25 April 1997); https://doi.org/10.1117/12.274093
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KEYWORDS
Image segmentation
Fuzzy logic
Magnetic resonance imaging
Image processing algorithms and systems
Brain
Tissues
RGB color model
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