MUSIC for single-snapshot spectral estimation: Stability and super-resolution

This paper studies the problem of line spectral estimation in the continuum of a bounded interval with one snapshot of array measurement. The single-snapshot measurement data are turned into a Hankel data matrix which admits the Vandermonde decomposition and is suitable for the MUSIC algorithm. The...

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Veröffentlicht in:Applied and computational harmonic analysis Jg. 40; H. 1; S. 33 - 67
Hauptverfasser: Liao, Wenjing, Fannjiang, Albert
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Elsevier Inc 01.01.2016
Schlagworte:
Discrete Ingham inequalities
MUSIC algorithm
Single-snapshot spectral estimation
Stability
Super-resolution
Single-snapshot spectral estimation
Discrete Ingham inequalities
Super-resolution
Stability
MUSIC algorithm
ISSN:1063-5203, 1096-603X
Online-Zugang:Volltext
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Abstract This paper studies the problem of line spectral estimation in the continuum of a bounded interval with one snapshot of array measurement. The single-snapshot measurement data are turned into a Hankel data matrix which admits the Vandermonde decomposition and is suitable for the MUSIC algorithm. The MUSIC algorithm amounts to finding the null space (the noise space) of the adjoint of the Hankel matrix, forming the noise-space correlation function and identifying the s smallest local minima of the noise-space correlation as the frequency set. In the noise-free case exact reconstruction is guaranteed for any arbitrary set of frequencies as long as the number of measurement data is at least twice the number of distinct frequencies to be recovered. In the presence of noise the stability analysis shows that the perturbation of the noise-space correlation is proportional to the spectral norm of the noise matrix as long as the latter is smaller than the smallest (nonzero) singular value of the noiseless Hankel data matrix. Under the assumption that the true frequencies are separated by at least twice the Rayleigh Length (RL), the stability of the noise-space correlation is proved by means of novel discrete Ingham inequalities which provide bounds on the largest and smallest nonzero singular values of the noiseless Hankel data matrix. The numerical performance of MUSIC is tested in comparison with other algorithms such as BLO-OMP and SDP (TV-min). While BLO-OMP is the stablest algorithm for frequencies separated above 4 RL, MUSIC becomes the best performing one for frequencies separated between 2 RL and 3 RL. Also, MUSIC is more efficient than other methods. MUSIC truly shines when the frequency separation drops to 1 RL or below when all other methods fail. Indeed, the resolution length of MUSIC decreases to zero as noise decreases to zero as a power law with an exponent smaller than an upper bound established by Donoho.
AbstractList This paper studies the problem of line spectral estimation in the continuum of a bounded interval with one snapshot of array measurement. The single-snapshot measurement data are turned into a Hankel data matrix which admits the Vandermonde decomposition and is suitable for the MUSIC algorithm. The MUSIC algorithm amounts to finding the null space (the noise space) of the adjoint of the Hankel matrix, forming the noise-space correlation function and identifying the s smallest local minima of the noise-space correlation as the frequency set. In the noise-free case exact reconstruction is guaranteed for any arbitrary set of frequencies as long as the number of measurement data is at least twice the number of distinct frequencies to be recovered. In the presence of noise the stability analysis shows that the perturbation of the noise-space correlation is proportional to the spectral norm of the noise matrix as long as the latter is smaller than the smallest (nonzero) singular value of the noiseless Hankel data matrix. Under the assumption that the true frequencies are separated by at least twice the Rayleigh Length (RL), the stability of the noise-space correlation is proved by means of novel discrete Ingham inequalities which provide bounds on the largest and smallest nonzero singular values of the noiseless Hankel data matrix. The numerical performance of MUSIC is tested in comparison with other algorithms such as BLO-OMP and SDP (TV-min). While BLO-OMP is the stablest algorithm for frequencies separated above 4 RL, MUSIC becomes the best performing one for frequencies separated between 2 RL and 3 RL. Also, MUSIC is more efficient than other methods. MUSIC truly shines when the frequency separation drops to 1 RL or below when all other methods fail. Indeed, the resolution length of MUSIC decreases to zero as noise decreases to zero as a power law with an exponent smaller than an upper bound established by Donoho.
Author Fannjiang, Albert
Liao, Wenjing
Author_xml – sequence: 1
  givenname: Wenjing
  surname: Liao
  fullname: Liao, Wenjing
  email: wjliao@math.duke.edu
  organization: Statistical and Applied Mathematical Sciences Institute (SAMSI), Durham, NC, United States
– sequence: 2
  givenname: Albert
  surname: Fannjiang
  fullname: Fannjiang, Albert
  email: fannjiang@math.ucdavis.edu
  organization: Department of Mathematics, University of California, Davis, CA, United States
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Issue 1
Keywords Single-snapshot spectral estimation
Discrete Ingham inequalities
Super-resolution
Stability
MUSIC algorithm
Language English
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Snippet This paper studies the problem of line spectral estimation in the continuum of a bounded interval with one snapshot of array measurement. The single-snapshot...
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StartPage 33
SubjectTerms Discrete Ingham inequalities
MUSIC algorithm
Single-snapshot spectral estimation
Stability
Super-resolution
Title MUSIC for single-snapshot spectral estimation: Stability and super-resolution
URI https://dx.doi.org/10.1016/j.acha.2014.12.003
Volume 40
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