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VLSISP
1998

Quantitative Analysis of MR Brain Image Sequences by Adaptive Self-Organizing Finite Mixtures

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Quantitative Analysis of MR Brain Image Sequences by Adaptive Self-Organizing Finite Mixtures
This paper presents an adaptive structure self-organizing finite mixture network for quantification of magnetic resonance (MR) brain image sequences. We present justification for the use of standard finite normal mixture model for MR images and formulate image quantification as a distribution learning problem. The finite mixture network parameters are updated such that the relative entropy between the true and estimated distributions is minimized. The new learning scheme achieves flexible classifier boundaries by forming winner-takes-in probability splits of the data allowing the data to contribute simultaneously to multiple regions. Hence, the result is unbiased and satisfies the asymptotic optimality properties of maximum likelihood. To achieve a fully automatic quantification procedure that can adapt to different slices in the MR image sequence, we utilize an information theoretic criterion that we have introduced recently, the minimum conditional bias/variance (MCBV) crit...
Yue Wang, Tülay Adali, Chi-Ming Lau, Sun-Yuan
Added 23 Dec 2010
Updated 23 Dec 2010
Type Journal
Year 1998
Where VLSISP
Authors Yue Wang, Tülay Adali, Chi-Ming Lau, Sun-Yuan Kung
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