Title :
On the Fundamental Limits of Adaptive Sensing
Author :
Arias-Castro, Ery ; Candès, Emmanuel J. ; Davenport, Mark A.
Author_Institution :
Dept. of Math., Univ. of California, San Diego, La Jolla, CA, USA
Abstract :
Suppose we can sequentially acquire arbitrary linear measurements of an n -dimensional vector x resulting in the linear model y = A x + z, where z represents measurement noise. If the signal is known to be sparse, one would expect the following folk theorem to be true: choosing an adaptive strategy which cleverly selects the next row of A based on what has been previously observed should do far better than a nonadaptive strategy which sets the rows of A ahead of time, thus not trying to learn anything about the signal in between observations. This paper shows that the folk theorem is false. We prove that the advantages offered by clever adaptive strategies and sophisticated estimation procedures-no matter how intractable-over classical compressed acquisition/recovery schemes are, in general, minimal.
Keywords :
adaptive signal processing; compressed sensing; vectors; acquisition scheme; adaptive sensing; estimation procedure; folk theorem; linear measurement; measurement noise; n-dimensional vector; recovery scheme; Estimation; Hamming distance; Noise; Noise measurement; Sensors; Testing; Vectors; Adaptive sensing; compressed sensing; hypothesis tests; information bounds; sparse signal estimation; support recovery;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2012.2215837
