Fixed-point implementation of multi-dimensional delta-operator formulated discrete-time systems: difficulties in convergence

P.H Bauer; K Premaratne

doi:10.1109/SECON.1994.324258

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Conference proceeding

Fixed-point implementation of multi-dimensional delta-operator formulated discrete-time systems: difficulties in convergence

P.H Bauer and K Premaratne

Proceedings of SOUTHEASTCON '94, pp.26-29

1994

DOI: https://doi.org/10.1109/SECON.1994.324258

Abstract

Asymptotic stability

Convergence

Differential equations

Digital signal processing

Image sampling

Laboratories

Multidimensional systems

Nonlinear equations

Quantization

Signal analysis

The convergence properties of linearly stable multi-dimensional systems are investigated for the case of delta-operator implementations in fixed-point format. It is shown that zero-convergence is almost never achieved, if the sampling time is small. Using a one-dimensional analysis, it is demonstrated that zero-convergence cannot be guaranteed along the axis of the first hyper-quadrant for a first hyper-quadrant causal system. This limits the use of delta-operators for solving partial differential equations in discrete time with fixed-point arithmetic.< >

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Title: Fixed-point implementation of multi-dimensional delta-operator formulated discrete-time systems: difficulties in convergence
Creators: P.H Bauer - University of Notre Dame
K Premaratne - University of Notre Dame
Publication Details: Proceedings of SOUTHEASTCON '94, pp.26-29
Publisher: IEEE
Academic Unit: CoE - Electrical & Computer Engineering; College of Engineering
Language: English
Resource Type: Conference proceeding
Record Identifier: 991031725754202976