The assumptions for the conventional statistical noise analysis are discussed in detail. Also, practical methods for the determination of the characteristics of the one-quantizer-model are given. The applicability of the proposed simplified error model is demonstrated by the roundoff noise analysis of different filter structures utilizing various quantizers
The paper analyzes the overall conversion error of a noisy analog-to-digital (A/D) converter affecte...
The paper analyzes the overall conversion error of a noisy digitizer affected by Gaussian noise at i...
The interaction between the roundoff‐noise output from a digital filter and the associated dynamic‐r...
The thesis begins with an overview of the four types of error that are generated in digital filters ...
Fixed-point roundoff noise in digital implementation of linear systems arises due to overflow, quant...
Abstract—In digital signal processing applications involving filtering long sequences, block filteri...
Abstract — Multiplierless filtering is very attractive for digital signal processing, for the coeffi...
The common mathematical relationships that describe digital filters are particularly useful in inves...
Digital filters process input data sequences and produce output data sequences which in some sense a...
The implementation of digital filters using finite precision or fixed point arithmetic introduces se...
Any digital transfer function can be realized in a multitude of configurations (structures). Several...
Any digital transfer function can be realized in a multitude of configurations (structures). Several...
Includes bibliographical references (pages 102-103)Digital filters are known to generate roundoff no...
Abstract: Real world signals usually contain departures from the ideal signal that would be produced...
Three assumptions are normally made about roundoff error sequences in fixed-point arithmetic digital...
The paper analyzes the overall conversion error of a noisy analog-to-digital (A/D) converter affecte...
The paper analyzes the overall conversion error of a noisy digitizer affected by Gaussian noise at i...
The interaction between the roundoff‐noise output from a digital filter and the associated dynamic‐r...
The thesis begins with an overview of the four types of error that are generated in digital filters ...
Fixed-point roundoff noise in digital implementation of linear systems arises due to overflow, quant...
Abstract—In digital signal processing applications involving filtering long sequences, block filteri...
Abstract — Multiplierless filtering is very attractive for digital signal processing, for the coeffi...
The common mathematical relationships that describe digital filters are particularly useful in inves...
Digital filters process input data sequences and produce output data sequences which in some sense a...
The implementation of digital filters using finite precision or fixed point arithmetic introduces se...
Any digital transfer function can be realized in a multitude of configurations (structures). Several...
Any digital transfer function can be realized in a multitude of configurations (structures). Several...
Includes bibliographical references (pages 102-103)Digital filters are known to generate roundoff no...
Abstract: Real world signals usually contain departures from the ideal signal that would be produced...
Three assumptions are normally made about roundoff error sequences in fixed-point arithmetic digital...
The paper analyzes the overall conversion error of a noisy analog-to-digital (A/D) converter affecte...
The paper analyzes the overall conversion error of a noisy digitizer affected by Gaussian noise at i...
The interaction between the roundoff‐noise output from a digital filter and the associated dynamic‐r...