On the novel zero-order overshooting LMS algorithms by design for computational dynamics

In this paper, a novel time-weighted residual methodology is developed in the two-field form of structural dynamics problems to enable generalized class of optimal zero-order overshooting Linear Multi-Step (LMS) algorithms by design. For the first time, we develop a novel time-weighted residual meth...

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Published inComputer methods in applied mechanics and engineering Vol. 433; p. 117522
Main Authors Wang, Yazhou, Maxam, Dean, Adams, Nikolaus A., Tamma, Kumar K.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.01.2025
Subjects
Generalized single-step single-solve
Linear/nonlinear dynamics
Time integration
Time-weighted residual
Vibration/structural dynamics
Vibration/structural dynamics
Time-weighted residual
Time integration
Linear/nonlinear dynamics
Generalized single-step single-solve
Online AccessGet full text
ISSN0045-7825
1879-2138
DOI10.1016/j.cma.2024.117522

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Abstract In this paper, a novel time-weighted residual methodology is developed in the two-field form of structural dynamics problems to enable generalized class of optimal zero-order overshooting Linear Multi-Step (LMS) algorithms by design. For the first time, we develop a novel time-weighted residual methodology in the two-field form of the second-order time-dependent systems, leading to the newly proposed ZOO4 schemes (zero-order overshooting with 4 roots) to achieve: second-order time accuracy in displacement, velocity, and acceleration, unconditional stability, zero-order overshooting, controllable numerical dissipation/dispersion, and minimal computational complexity. Particularly, it resolves the issues in existing single-step methods, which exhibit first-order overshooting in displacement and/or velocity. Additionally, the relationship between the newly proposed ZOO4 schemes and existing methods is contrasted and analyzed, providing a new and in-depth understanding to the recent advances in literature from the time-weighted residual viewpoint. Rigorous numerical analysis, verification, and validation via various numerical examples are presented to substantiate the significance of the proposed methodology in accuracy and stability analysis, particularly demonstrating the advancements towards achieving zero-order overshooting in numerically dissipative schemes for linear/nonlinear structural dynamics problems. •The first time to develop the time-weighted residual methodology in two-field form.•ZOO4 schemes achieve zero-order overshooting with controllable numerical dissipation.•Significantly improve the nonlinear stability and robustness without overshooting.•An enhanced understanding of LMS methods from the time-weighted residual viewpoint.
AbstractList In this paper, a novel time-weighted residual methodology is developed in the two-field form of structural dynamics problems to enable generalized class of optimal zero-order overshooting Linear Multi-Step (LMS) algorithms by design. For the first time, we develop a novel time-weighted residual methodology in the two-field form of the second-order time-dependent systems, leading to the newly proposed ZOO4 schemes (zero-order overshooting with 4 roots) to achieve: second-order time accuracy in displacement, velocity, and acceleration, unconditional stability, zero-order overshooting, controllable numerical dissipation/dispersion, and minimal computational complexity. Particularly, it resolves the issues in existing single-step methods, which exhibit first-order overshooting in displacement and/or velocity. Additionally, the relationship between the newly proposed ZOO4 schemes and existing methods is contrasted and analyzed, providing a new and in-depth understanding to the recent advances in literature from the time-weighted residual viewpoint. Rigorous numerical analysis, verification, and validation via various numerical examples are presented to substantiate the significance of the proposed methodology in accuracy and stability analysis, particularly demonstrating the advancements towards achieving zero-order overshooting in numerically dissipative schemes for linear/nonlinear structural dynamics problems. •The first time to develop the time-weighted residual methodology in two-field form.•ZOO4 schemes achieve zero-order overshooting with controllable numerical dissipation.•Significantly improve the nonlinear stability and robustness without overshooting.•An enhanced understanding of LMS methods from the time-weighted residual viewpoint.
ArticleNumber 117522
Author Tamma, Kumar K.
Maxam, Dean
Adams, Nikolaus A.
Wang, Yazhou
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Keywords Vibration/structural dynamics
Time-weighted residual
Time integration
Linear/nonlinear dynamics
Generalized single-step single-solve
Language English
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Snippet In this paper, a novel time-weighted residual methodology is developed in the two-field form of structural dynamics problems to enable generalized class of...
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SubjectTerms Generalized single-step single-solve
Linear/nonlinear dynamics
Time integration
Time-weighted residual
Vibration/structural dynamics
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Title On the novel zero-order overshooting LMS algorithms by design for computational dynamics
URI https://dx.doi.org/10.1016/j.cma.2024.117522
https://doi.org/10.1016/j.cma.2024.117522
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