稀疏回归中的持久同调及其在脑形态测量学中的应用。
Persistent Homology in Sparse Regression and Its Application to Brain Morphometry.
作者信息
Chung Moo K, Hanson Jamie L, Ye Jieping, Davidson Richard J, Pollak Seth D
出版信息
IEEE Trans Med Imaging. 2015 Sep;34(9):1928-39. doi: 10.1109/TMI.2015.2416271. Epub 2015 Mar 24.
Abstract
Sparse systems are usually parameterized by a tuning parameter that determines the sparsity of the system. How to choose the right tuning parameter is a fundamental and difficult problem in learning the sparse system. In this paper, by treating the the tuning parameter as an additional dimension, persistent homological structures over the parameter space is introduced and explored. The structures are then further exploited in drastically speeding up the computation using the proposed soft-thresholding technique. The topological structures are further used as multivariate features in the tensor-based morphometry (TBM) in characterizing white matter alterations in children who have experienced severe early life stress and maltreatment. These analyses reveal that stress-exposed children exhibit more diffuse anatomical organization across the whole white matter region.
摘要
稀疏系统通常由一个调谐参数进行参数化,该参数决定了系统的稀疏性。如何选择合适的调谐参数是学习稀疏系统中的一个基本且困难的问题。在本文中,通过将调谐参数视为一个额外维度,引入并探索了参数空间上的持久同调结构。然后,利用所提出的软阈值技术,进一步利用这些结构大幅加速计算。这些拓扑结构还被用作基于张量的形态计量学(TBM)中的多变量特征,以表征经历过严重早期生活压力和虐待的儿童的白质变化。这些分析表明,受压力影响的儿童在整个白质区域表现出更弥散的解剖组织。
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