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Why Gabor frames? Two fundamental measures of coherence and their role in model selection

Publication ,  Journal Article
Bajwa, WU; Calderbank, R; Jafarpour, S
Published in: Journal of Communications and Networks
January 1, 2010

The problem of model selection arises in a number of contexts, such as subset selection in linear regression, estimation of structures in graphical models, and signal denoising. This paper studies non-asymptotic model selection for the general case of arbitrary (random or deterministic) design matrices and arbitrary nonzero entries of the signal. In this regard, it generalizes the notion of incoherence in the existing literature on model selection and introduces two fundamental measures of coherence- termed as the worst-case coherence and the average coherence-among the columns of a design matrix. It utilizes these two measures of coherence to provide an in-depth analysis of a simple, model-order agnostic one-step thresholding (OST) algorithm for model selection and proves that OST is feasible for exact as well as partial model selection as long as the design matrix obeys an easily verifiable property, which is termed as the coherence property. One of the key insights offered by the ensuing analysis in this regard is that OST can successfully carry out model selection even when methods based on convex optimization such as the lasso fail due to the rank deficiency of the submatrices of the design matrix. In addition, the paper establishes that if the design matrix has reasonably small worst-case and average coherence then OST performs near-optimally when either (i) the energy of any nonzero entry of the signal is close to the average signal energy per nonzero entry or (ii) the signal-to-noise ratio in the measurement system is not too high. Finally, two other key contributions of the paper are that (i) it provides bounds on the average coherence of Gaussian matrices and Gabor frames, and (ii) it extends the results on model selection using OST to low-complexity, model-order agnostic recovery of sparse signals with arbitrary nonzero entries. In particular, this part of the analysis in the paper implies that an Alltop Gabor frame together with OST can successfully carry out model selection and recovery of sparse signals irrespective of the phases of the nonzero entries even if the number of nonzero entries scales almost linearly with the number of rows of the Alltop Gabor frame. ©2010 KICS.

Duke Scholars

Published In

Journal of Communications and Networks

DOI

ISSN

1229-2370

Publication Date

January 1, 2010

Volume

12

Issue

4

Start / End Page

289 / 307

Related Subject Headings

  • Networking & Telecommunications
  • 4606 Distributed computing and systems software
  • 4006 Communications engineering
  • 1005 Communications Technologies
  • 0906 Electrical and Electronic Engineering
  • 0805 Distributed Computing
 

Citation

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Bajwa, W. U., Calderbank, R., & Jafarpour, S. (2010). Why Gabor frames? Two fundamental measures of coherence and their role in model selection. Journal of Communications and Networks, 12(4), 289–307. https://doi.org/10.1109/JCN.2010.6388466
Bajwa, W. U., R. Calderbank, and S. Jafarpour. “Why Gabor frames? Two fundamental measures of coherence and their role in model selection.” Journal of Communications and Networks 12, no. 4 (January 1, 2010): 289–307. https://doi.org/10.1109/JCN.2010.6388466.
Bajwa WU, Calderbank R, Jafarpour S. Why Gabor frames? Two fundamental measures of coherence and their role in model selection. Journal of Communications and Networks. 2010 Jan 1;12(4):289–307.
Bajwa, W. U., et al. “Why Gabor frames? Two fundamental measures of coherence and their role in model selection.” Journal of Communications and Networks, vol. 12, no. 4, Jan. 2010, pp. 289–307. Scopus, doi:10.1109/JCN.2010.6388466.
Bajwa WU, Calderbank R, Jafarpour S. Why Gabor frames? Two fundamental measures of coherence and their role in model selection. Journal of Communications and Networks. 2010 Jan 1;12(4):289–307.

Published In

Journal of Communications and Networks

DOI

ISSN

1229-2370

Publication Date

January 1, 2010

Volume

12

Issue

4

Start / End Page

289 / 307

Related Subject Headings

  • Networking & Telecommunications
  • 4606 Distributed computing and systems software
  • 4006 Communications engineering
  • 1005 Communications Technologies
  • 0906 Electrical and Electronic Engineering
  • 0805 Distributed Computing