Paper data
Title:
Image Resolution-Variance Tradeoffs Using the Uniform Cramer-Rao Bound Author(s): Kragh Thomas, University of Michigan, Dept. of EECS Hero Alfred, University of Michigan, Dept. of EECS Page numbers in the proceedings: Volume II pp 457-460 Session: Image Restoration
Paper abstract
In image reconstruction and restoration, there exists an inherent tradeoff between the recovered spatial resolution and statistical variance: lower variance can be bought at the price of decreased spatial resolution. This tradeoff can be captured for a particular regularized estimator by tracing out the resolution and variance as a curve indexed by the estimator's smoothing parameter. When the resolution of an estimator is well characterized by the norm of the estimator bias-gradient the uniform Cramer-Rao (CR) lower bound can be applied. The bias gradient norm fails, however, to constrain the width of the estimator point response function and the uniform CR bound with bias-gradient norm can give counter-intuitive results. In this paper we present a modified uniform CR bound on estimator variance which captures the width of the estimator point response. These results on the theoretically minimum attainable resolution-variance curve are useful both for exploring near optimality of practical image estimation algorithms and for optimizing the design of image acquisition systems.
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