Subspace and DOA Estimation Under Coarse Quantization
MCML Authors
Johannes Maly
Prof. Dr.
Associate
Abstract
Johannes Maly
Prof. Dr.
Associate
Abstract
We study direction-of-arrival (DOA) estimation from coarsely quantized data. We focus on a two-step approach which first estimates the signal subspace via covariance estimation and then extracts DOA angles by the ESPRIT algorithm. In particular, we analyze two stochastic quantization schemes which use dithering: a one-bit quantizer combined with rectangular dither and a multi-bit quantizer with triangular dither. For each quantizer, we derive rigorous high probability bounds for the distances between the true and estimated signal subspaces and DOA angles. Using our analysis, we identify scenarios in which subspace and DOA estimation via triangular dithering qualitatively outperforms rectangular dithering. We verify in numerical simulations that our estimates are optimal in their dependence on the smallest non-zero eigenvalue of the target matrix. The resulting subspace estimation guarantees are equally applicable in the analysis of other spectral estimation algorithms and related problems.
misc
Preprint
Feb. 2025Authors
S. Dirksen • W. Li • J. MalyLinks
Research Area
BibTeXKey: DLM25a