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ICASSP
2011
IEEE

Compressive sensing meets game theory

13 years 3 months ago
Compressive sensing meets game theory
We introduce the Multiplicative Update Selector and Estimator (MUSE) algorithm for sparse approximation in underdetermined linear regression problems. Given f = Φα∗ + µ, the MUSE provably and efficiently finds a k-sparse vector ˆα such that Φˆα − f ∞ ≤ µ ∞ + O 1√ k , for any k-sparse vector α∗ , any measurement matrix Φ, and any noise vector µ. We cast the sparse approximation problem as a zerosum game over a properly chosen new space; this reformulation provides salient computational advantages in recovery. When the measurement matrix Φ provides stable embedding to sparse vectors (the so-called restricted isometry property in compressive sensing), the MUSE also features guarantees on α∗ − ˆα 2. Simulation results demonstrate the scalability and performance of the MUSE in solving sparse approximation problems based on the Dantzig Selector.
Sina Jafarpour, Robert E. Schapire, Volkan Cevher
Added 21 Aug 2011
Updated 21 Aug 2011
Type Journal
Year 2011
Where ICASSP
Authors Sina Jafarpour, Robert E. Schapire, Volkan Cevher
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