Lower bounds for the error decay incurred by coarse quantization schemes
Copyright policy )Lower bounds for the error decay incurred by coarse quantization schemes
Several analog-to-digital conversion methods for bandlimited signals used in applications, such as Sigma Delta quantization schemes, employ coarse quantization coupled with oversampling. The standard mathematical model for the error accrued from such methods measures the performance of a given scheme by the rate at which the associated reconstruction error decays as a function of the oversampling ratio L > 1. It was recently shown that exponential accuracy of the form O(2(-r L)) can be achieved by appropriate one-bit Sigma Delta modulation schemes. However, the best known achievable rate constants r in this setting differ significantly from the general information theoretic lower bound. In this paper, we provide the first lower bound specific to coarse quantization, thus narrowing the gap between existing upper and lower bounds. In particular, our results imply a quantitative correspondence between the maximal signal amplitude and the best possible error decay rate. Our method draws from the theory of large deviations.
15 pages, one figure
- New York University United States
- University of Bonn Germany
- Hausdorff Center for Mathematics Germany
- New York University United States
- New York University United States
Signal theory (characterization, reconstruction, filtering, etc.), FOS: Computer and information sciences, Measures of information, entropy, Information and communication, Applied Mathematics, Computer Science - Information Theory, Information Theory (cs.IT), Rate of convergence, Probability theory – combinatorial probability, coarse quantization, large deviations, Dynamical systems in applications, Large deviations, Circuits, Degree of approximation, Approximation by arbitrary nonlinear expressions, error decay rate, Widths and entropy, entropy, Best constants, Sampling theory in information and communication theory, 37N99, 41A25, 41A44, 41A46, 42A61, 60C05, 94C99, Harmonic analysis on Euclidean spaces – probabilistic methods
Signal theory (characterization, reconstruction, filtering, etc.), FOS: Computer and information sciences, Measures of information, entropy, Information and communication, Applied Mathematics, Computer Science - Information Theory, Information Theory (cs.IT), Rate of convergence, Probability theory – combinatorial probability, coarse quantization, large deviations, Dynamical systems in applications, Large deviations, Circuits, Degree of approximation, Approximation by arbitrary nonlinear expressions, error decay rate, Widths and entropy, entropy, Best constants, Sampling theory in information and communication theory, 37N99, 41A25, 41A44, 41A46, 42A61, 60C05, 94C99, Harmonic analysis on Euclidean spaces – probabilistic methods
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