Name
Abstract | ||
|---|---|---|
We study the sample complexity of estimating the co-variance matrix T of a distribution D over d-dimensional vectors, under the assumption that T is Toeplitz. This assumption arises in many signal processing problems, where the covariance between any two measurements only depends on the time or distance between those measurements. We are interested in estimation strategies that may choose to view only a subset of entries in each vector sample x ~ D, which often equates to reducing hardware and communication requirements in applications ranging from wireless signal processing to advanced imaging. Our goal is to minimize both 1) the number of vector samples drawn from D and 2) the number of entries accessed in each sample.
We provide some of the first non-asymptotic bounds on these sample complexity measures that exploit T's Toeplitz structure, and by doing so, significantly improve on results for generic covariance matrices. These bounds follow from a novel analysis of classical and widely used estimation algorithms (along with new variants), including methods based on selecting entries from each vector sample according to a so-called sparse ruler.
In addition to results that hold for any Toeplitz T, we further study the important setting when T is close to low-rank, which is often the case in practice. We show that methods based on sparse rulers perform even better in this setting, with sample complexity scaling sublinearly in d. Motivated by this, we develop a new estimation strategy that further improves on existing methods in the low-rank case: when T is rank-k or nearly rank-k, it achieves sample complexity depending polynomially on k and only logarithmically on d.
Our results utilize tools from random matrix sketching, leverage score based sampling techniques for continuous time signals, and sparse Fourier transform methods. In many cases, we pair our upper bounds with matching or nearly matching lower bounds.
|
Year | DOI | Venue |
|---|---|---|
2019 | 10.5555/3381089.3381112 | SODA '20: ACM-SIAM Symposium on Discrete Algorithms
Salt Lake City
Utah
January, 2020 |
Field | DocType | Volume |
Signal processing,Estimation of covariance matrices,Sparse ruler,Matrix (mathematics),Algorithm,Toeplitz matrix,Covariance matrix,Scaling,Mathematics,Covariance | Journal | abs/1905.05643 |
Citations | PageRank | References |
0 | 0.34 | 0 |
Authors | ||
4 | ||
Name | Order | Citations | PageRank |
|---|---|---|---|
| Y. C. Eldar | 1 | 6399 | 458.37 |
| Jerry Li | 2 | 229 | 22.67 |
| Cameron Musco | 3 | 258 | 25.06 |
| Christopher Musco | 4 | 194 | 14.09 |