Numerical time integration for dynamic analysis using a new higher order predictor‐corrector method
Abstract
Purpose
This paper aims to provide a simple and accurate higher order predictor‐corrector integration which can be used in dynamic analysis and to compare it with the previous works.
Design/methodology/approach
The predictor‐corrector integration is defined by combining the higher order explicit and implicit integrations in which displacement and velocity are assumed to be functions of accelerations of several previous time steps. By studying the accuracy and stability conditions, the weighted factors and acceptable time step are determined.
Findings
Simplicity and vector operations plus accuracy and stability are the main specifications of the new predictor‐corrector method. This procedure can be used in linear and nonlinear dynamic analysis.
Research limitations/implications
In the proposed integration, time step is assumed to be constant.
Practical implications
The numerical integration is the heart of a dynamic analysis. The result's accuracy is strongly influenced by the accuracy and stability of the numerical integration.
Originality/value
This paper presents simple and accurate predictor‐corrector integration based on accelerations of several previous time steps. This may be used as a routine in any dynamic analysis software to enhance accuracy and reduce computational time.
Keywords
Citation
Rezaiee‐Pajand, M. and Alamatian, J. (2008), "Numerical time integration for dynamic analysis using a new higher order predictor‐corrector method", Engineering Computations, Vol. 25 No. 6, pp. 541-568. https://doi.org/10.1108/02644400810891544
Publisher
:Emerald Group Publishing Limited
Copyright © 2008, Emerald Group Publishing Limited