Subcycling first- and second-order generalizations of the trapezoidal rule
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Publication:4209674
DOI<1091::AID-NME401>3.0.CO;2-A 10.1002/(SICI)1097-0207(19980730)42:6<1091::AID-NME401>3.0.CO;2-AzbMath0912.73078OpenAlexW1986706567MaRDI QIDQ4209674
Publication date: 28 September 1998
Full work available at URL: https://doi.org/10.1002/(sici)1097-0207(19980730)42:6<1091::aid-nme401>3.0.co;2-a
stabilityenergy conservationdiffusion problemtransient dynamicsfirst-order caseimplicit/implicit partitionmulti-timestep implicit integrationNewmark family of algorithmssecond-order case
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Cites Work
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- Mixed methods for time integration
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- A comprehensive unified set of single-step algorithms with controllable dissipation for dynamics. I: Formulation. II: Algorithms and analysis
- Partitioned procedures for the transient solution of coupled aeroelastic problems. I: Model problem, theory and two-dimensional application.
- Explicit-explicit subcycling with non-integer time step ratios for structural dynamic systems
- Multi-time-step integration using nodal partitioning
- Convergence of an element-partitioned subcycling algorithm for the semi-discrete heat equation
- Partitioned Transient Analysis Procedures for Coupled-Field Problems: Stability Analysis
- Mixed-time implicit-explicit finite elements for transient analysis
- Implicit-Explicit Finite Elements in Transient Analysis: Implementation and Numerical Examples
- Analysis and implementation of a new constant acceleration subcycling algorithm
- Stability of an explicit multi-time step integration algorithm for linear structural dynamics equations
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