Andere Kunden interessierten sich auch für
![Automated detection of new MS lesions in longitudinal MRI]( "Automated detection of new MS lesions in longitudinal MRI")
Automated detection of new MS lesions in longitudinal MRI42,99 €![Brain Image Segmentation Techniques]( "Brain Image Segmentation Techniques")
Brain Image Segmentation Techniques51,99 €![MRI Image Segmentation for Detection of Brain Tumors]( "MRI Image Segmentation for Detection of Brain Tumors")
MRI Image Segmentation for Detection of Brain Tumors29,99 €![An Automatic Algorithm for QA of MRI Scanners using a DWI Phantom]( "An Automatic Algorithm for QA of MRI Scanners using a DWI Phantom")
An Automatic Algorithm for QA of MRI Scanners using a DWI Phantom27,99 €![Brain Tumor Segmentation Methods]( "Brain Tumor Segmentation Methods")
Brain Tumor Segmentation Methods51,99 €![Black and White - RGB Image Processing]( "Black and White - RGB Image Processing")
Black and White - RGB Image Processing46,99 €![Hirntumor-Segmentierungsmethoden]( "Hirntumor-Segmentierungsmethoden")
Hirntumor-Segmentierungsmethoden79,90 €
A fully automatic white matter lesion segmentation method has been developed and evaluated. The method uses multispectral magnetic resonance imaging (MRI) data (T1, T2 and Proton Density). First fuzzy c means (FCM) was used to segment normal brain tissues (white matter, grey matter, and cerebrospinal fluid). The holes in normal white matter were used to sample the WML intensities in the different images. The segmentation of WML was optimized by a graph cut approach. The method was trained by using 9 manually segmented datasets and evaluated by comparison to 11 other manually segmented, and visually evaluated, datasets. The graph cut part of the automatic segmentation requires, on average, 30 seconds per dataset. The results correlated well (r=0.954) to a manually created reference that was supervised by two neuroradiologists.