Central Limit Theorems for Classical Multidimensional Scaling
Abstract
Classical multidimensional scaling is a widely used method in dimensionality reduction and manifold learning. The method takes in a dissimilarity matrix and outputs a low-dimensional configuration matrix based on a spectral decomposition. In this paper, we present three noise models and analyze the resulting configuration matrices, or embeddings. In particular, we show that under each of the three noise models the resulting embedding gives rise to a central limit theorem. We also provide compelling simulations and real data illustrations of these central limit theorems. This perturbation analysis represents a significant advancement over previous results regarding classical multidimensional scaling behavior under randomness.
Cite
@article{arxiv.1804.00631,
title = {Central Limit Theorems for Classical Multidimensional Scaling},
author = {Gongkai Li and Minh Tang and Nichlas Charon and Carey E Priebe},
journal= {arXiv preprint arXiv:1804.00631},
year = {2019}
}
Comments
26 pages, 6 figures