English

Classification and Representation via Separable Subspaces: Performance Limits and Algorithms

Information Theory 2018-10-26 v2 Machine Learning math.IT Machine Learning

Abstract

We study the classification performance of Kronecker-structured models in two asymptotic regimes and developed an algorithm for separable, fast and compact K-S dictionary learning for better classification and representation of multidimensional signals by exploiting the structure in the signal. First, we study the classification performance in terms of diversity order and pairwise geometry of the subspaces. We derive an exact expression for the diversity order as a function of the signal and subspace dimensions of a K-S model. Next, we study the classification capacity, the maximum rate at which the number of classes can grow as the signal dimension goes to infinity. Then we describe a fast algorithm for Kronecker-Structured Learning of Discriminative Dictionaries (K-SLD2). Finally, we evaluate the empirical classification performance of K-S models for the synthetic data, showing that they agree with the diversity order analysis. We also evaluate the performance of K-SLD2 on synthetic and real-world datasets showing that the K-SLD2 balances compact signal representation and good classification performance.

Keywords

Cite

@article{arxiv.1705.02556,
  title  = {Classification and Representation via Separable Subspaces: Performance Limits and Algorithms},
  author = {Ishan Jindal and Matthew Nokleby},
  journal= {arXiv preprint arXiv:1705.02556},
  year   = {2018}
}

Comments

This paper is submitted to IEEE JSTSP Special Issue on Information-Theoretic Methods in Data Acquisition, Analysis, and Processing 2018

R2 v1 2026-06-22T19:39:19.756Z