A Comparative Study of Two Families of Higher-Order Accurate Time Integration Algorithms
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Publication:4985145
DOI10.1142/S0219876219500488OpenAlexW2943852953WikidataQ127897147 ScholiaQ127897147MaRDI QIDQ4985145
Publication date: 22 April 2021
Published in: International Journal of Computational Methods (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0219876219500488
weighted residual methoddifferential quadrature methodnonlinear structural dynamicslong term analysisGauss-Lobbato quadratureimplicit higher-order accurate time integration method
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Cites Work
- Unnamed Item
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- From the trapezoidal rule to higher-order accurate and unconditionally stable time-integration method for structural dynamics
- A unified set of single-step asymptotic annihilation algorithms for structural dynamics
- Differential quadrature and longterm integration
- Solving initial value problems by differential quadrature method?part 1: first-order equations
- UNCONDITIONALLY STABLE COLLOCATION ALGORITHMS FOR SECOND ORDER INITIAL VALUE PROBLEMS
- Improving stability domains of the implicit higher order accuracy method
- NONCONVENTIONAL FINITE ELEMENT MODELS FOR NONLINEAR ANALYSIS OF BEAMS
- A Cross Weighted-Residual Time Integration Scheme for Structural Dynamics
- Time Integration Method Based on Discrete Transfer Function
- A New Explicit Time Integration Scheme for Nonlinear Dynamic Analysis
- A Time Integration Algorithm for Structural Dynamics With Improved Numerical Dissipation: The Generalized-α Method
- NUMERICAL SOLUTIONS OF SECOND ORDER IMPLICIT NON-LINEAR ORDINARY DIFFERENTIAL EQUATIONS
- Time Finite Element Discretization of Hamilton's Law of Varying Action
- Stability properties of some algorithms for the solution of nonlinear dynamic vibration equations
- An Improved Stiffly Stable Method for Direct Integration of Nonlinear Structural Dynamic Equations
- Weighting parameters for unconditionally stable higher-order accurate time step integration algorithms. Part 2?second-order equations
- On the equivalence of the time domain differential quadrature method and the dissipative Runge-Kutta collocation method
- UNCONDITIONALLY STABLE HIGHER-ORDER ACCURATE HERMITIAN TIME FINITE ELEMENTS
- A TIME-STEPPING PROCEDURE FOR STRUCTURAL DYNAMICS USING GAUSS POINT COLLOCATION
- A Simple Explicit–Implicit Time-Marching Technique for Wave Propagation Analysis
- Noniterative Integration Algorithms with Controllable Numerical Dissipations for Structural Dynamics
- Novel Superfluids
