Boundary behavior in High Dimension, Low Sample Size asymptotics of PCA

In High Dimension, Low Sample Size (HDLSS) data situations, where the dimension dd is much larger than the sample size nn, principal component analysis (PCA) plays an important role in statistical analysis. Under which conditions does the sample PCA well reflect the population covariance structure? We answer this question in a relevant asymptotic context where dd grows and nn is fixed, under a generalized spiked covariance model. Specifically, we assume the largest population eigenvalues to be of the order dαdα, where α<α<, ==, or >1>1. Earlier results show the conditions for consistency and strong inconsistency of eigenvectors of the sample covariance matrix. In the boundary case, α=1α=1, where the sample PC directions are neither consistent nor strongly inconsistent, we show that eigenvalues and eigenvectors do not degenerate but have limiting distributions. The result smoothly bridges the phase transition represented by the other two cases, and thus gives a spectrum of limits for the sample PCA in the HDLSS asymptotics. While the results hold under a general situation, the limiting distributions under Gaussian assumption are illustrated in greater detail. In addition, the geometric representation of HDLSS data is extended to give three different representations, that depend on the magnitude of variances in the first few principal components.