Riaz Usama, Razzaq Fuleah A, Hu Shiang, Valdés-Sosa Pedro A
The Clinical Hospital of Chengdu Brain Sciences, University of Electronic Science and Technology of China, Chengdu, China.
Anhui Provincial Key Laboratory of Multimodal Cognitive Computation, Key Laboratory of Intelligent Computing and Signal Processing of Ministry of Education, School of Computer Science and Technology, Hefei, China.
Front Neurosci. 2021 Nov 11;15:750290. doi: 10.3389/fnins.2021.750290. eCollection 2021.
Finding the common principal component (CPC) for ultra-high dimensional data is a multivariate technique used to discover the latent structure of covariance matrices of shared variables measured in two or more conditions. Common eigenvectors are assumed for the covariance matrix of all conditions, only the eigenvalues being specific to each condition. Stepwise CPC computes a limited number of these CPCs, as the name indicates, sequentially and is, therefore, less time-consuming. This method becomes unfeasible when the number of variables is ultra-high since storing covariance matrices requires ( ) memory. Many dimensionality reduction algorithms have been improved to avoid explicit covariance calculation and storage (covariance-free). Here we propose a covariance-free stepwise CPC, which only requires ( ) memory, where is the total number of examples. Thus for < < , the new algorithm shows apparent advantages. It computes components quickly, with low consumption of machine resources. We validate our method CFCPC with the classical Iris data. We then show that CFCPC allows extracting the shared anatomical structure of EEG and MEG source spectra across a frequency range of 0.01-40 Hz.
寻找超高维数据的共同主成分(CPC)是一种多元技术,用于发现两个或更多条件下测量的共享变量协方差矩阵的潜在结构。假设所有条件的协方差矩阵具有共同的特征向量,只有特征值特定于每个条件。如名称所示,逐步CPC按顺序计算有限数量的这些CPC,因此耗时较少。当变量数量超高时,这种方法变得不可行,因为存储协方差矩阵需要( )内存。许多降维算法已经得到改进,以避免显式的协方差计算和存储(无协方差)。在这里,我们提出了一种无协方差的逐步CPC,它只需要( )内存,其中 是示例的总数。因此,对于 << ,新算法显示出明显的优势。它能够快速计算成分,机器资源消耗低。我们用经典的鸢尾花数据验证了我们的方法CFCPC。然后我们表明,CFCPC允许在0.01 - 40 Hz的频率范围内提取脑电图(EEG)和脑磁图(MEG)源谱的共享解剖结构。
