Abstract
A problem of estimation of a large Hermitian nonnegatively definite matrix of trace 1 (a density matrix of a quantum system) motivated by quantum state tomography is studied. The estimator is based on a modified least squares method suitable in the case of models with random design with known design distributions. The bounds on Hilbert-Schmidt error of the estimator, including low rank oracle inequalities, have been proved. The proofs rely on Bernstein type inequalities for sums of independent random matrices.
Information
Published: 1 January 2013
First available in Project Euclid: 8 March 2013
zbMATH: 1327.62434
MathSciNet: MR3202635
Digital Object Identifier: 10.1214/12-IMSCOLL915
Subjects:
Primary:
62J99
Secondary:
62H12, 60B20, 60G15
Keywords:
low rank matrix estimation
,
matrix regression
,
noncommutative Bernstein inequality
,
quantum state tomography
Rights: Copyright © 2010, Institute of Mathematical Statistics
