@inbook{cc8727321e0d41ac929961c00b0a6284,
title = "Distributed noise-shaping quantization: II. classical frames",
abstract = "This chapter constitutes the second part in a series of papers on distributed noise-shaping quantization. In the first part, the main concept of distributed noise shaping was introduced and the performance of distributed beta encoding coupled with reconstruction via beta duals was analyzed for random frames (Chou and G{\"u}nt{\"u}rk, Constr Approx 44(1):1–22, 2016). In this second part, the performance of the same method is analyzed for several classical examples of deterministic frames. Particular consideration is given to Fourier frames and frames used in analog-to-digital conversion. It is shown in all these examples that entropic rate-distortion performance is achievable.",
keywords = "A/D conversion, Beta duals, Beta encoding, Finite frames, Noise shaping, Quantization",
author = "Evan Chou and G{\"u}nt{\"u}rk, {C. Sinan}",
note = "Publisher Copyright: {\textcopyright} Springer International Publishing AG 2017.",
year = "2017",
doi = "10.1007/978-3-319-54711-4_8",
language = "English (US)",
series = "Applied and Numerical Harmonic Analysis",
publisher = "Springer International Publishing",
number = "9783319547107",
pages = "179--198",
booktitle = "Applied and Numerical Harmonic Analysis",
edition = "9783319547107",
}