Super-resolution limit of the ESPRIT algorithm

May 03, 2019 Β· Declared Dead Β· πŸ› IEEE Transactions on Information Theory

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Authors Weilin Li, Wenjing Liao, Albert Fannjiang arXiv ID 1905.03782 Category cs.IT: Information Theory Citations 106 Venue IEEE Transactions on Information Theory Last Checked 4 months ago
Abstract
The problem of imaging point objects can be formulated as estimation of an unknown atomic measure from its $M+1$ consecutive noisy Fourier coefficients. The standard resolution of this inverse problem is $1/M$ and super-resolution refers to the capability of resolving atoms at a higher resolution. When any two atoms are less than $1/M$ apart, this recovery problem is highly challenging and many existing algorithms either cannot deal with this situation or require restrictive assumptions on the sign of the measure. ESPRIT is an efficient method that does not depend on the sign of the measure. This paper provides an explicit error bound on the support matching distance of ESPRIT in terms of the minimum singular value of Vandermonde matrices. When the support consists of multiple well-separated clumps and noise is sufficiently small, the support error by ESPRIT scales like ${\rm SRF}^{2Ξ»+2} \times {\rm Noise}$, where the Super-Resolution Factor (${\rm SRF}$) governs the difficulty of the problem and $Ξ»$ is the cardinality of the largest clump. {If the support contains one clump of closely spaced atoms, the min-max error is ${\rm SRF}^{2Ξ»+2} \times {\rm Noise}/M$. Our error bound matches the min-max rate up to a factor of $M$ in the small noise regime. Our results therefore establishes the near-optimality of ESPRIT,} and our theory is validated by numerical experiments.
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