On the Numerical Discretization in Space and Time: Part 2 - Total Energy Framework and Satisfaction of Conservation Properties of Discretized Equations of Motion for Linear Dynamics Problems
DOI10.1080/15502287.2010.501324zbMath1331.70005OpenAlexW2062571371MaRDI QIDQ3102119
Masao Shimada, Jason Har, Xiangmin Zhou, Kumar K. Tamma
Publication date: 1 December 2011
Published in: International Journal for Computational Methods in Engineering Science and Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1080/15502287.2010.501324
Computational methods for problems pertaining to mechanics of particles and systems (70-08) Finite element, Rayleigh-Ritz and Galerkin methods for initial value and initial-boundary value problems involving PDEs (65M60) Hamilton's principle (70H25) (n)-body problems (70F10)
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Cites Work
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- A new finite element based Lax-Wendroff/Taylor-Galerkin methodology for computational dynamics
- The discrete energy-momentum method. Conserving algorithms for nonlinear elastodynamics
- Exact energy-momentum conserving algorithms and symplectic schemes for nonlinear dynamics
- Discrete mechanics - a general treatment
- Time-discretization of Hamiltonian dynamical systems
- Mechanical integrators derived from a discrete variational principle
- On the Numerical Discretization in Space and Time: Part 1 - Hamilton's Law of Varying Action Involving Lagrangian/Hamiltonian/Total Energy Framework
- Discrete mechanics and variational integrators
- Design spaces, measures and metrics for evaluating quality of time operators and consequences leading to improved algorithms by design—illustration to structural dynamics
- Algorithms by design with illustrations to solid and structural mechanics/dynamics
- Applicability and evaluation of an implicit self-starting unconditionally stable methodology for the dynamics of structures
- Algorithms by Design: Part I—On the Hidden Point Collocation Within LMS Methods and Implications for Nonlinear Dynamics Applications
- A novel non-linearly explicit second-order accurate L-stable methodology for finite deformation: hypoelastic/hypoelasto-plastic structural dynamics problems
- Design, analysis, and synthesis of generalized single step single solve and optimal algorithms for structural dynamics
- Finite-element analysis of time-dependent phenomena.
- The time dimension: A theory towards the evolution, classification, characterization and design of computational algorithms for transient/dynamic applications
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