Transient Response Analysis of Underwater Structures Based on Total Field Formulas and Modified High-order Transmission Boundary
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Publication:3383735
DOI10.1142/S021987622150016XOpenAlexW3107387742WikidataQ113776778 ScholiaQ113776778MaRDI QIDQ3383735
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Publication date: 16 December 2021
Published in: International Journal of Computational Methods (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s021987622150016x
fluid-structure interaction (FSI)scaled boundary finite element method (SBFEM)modified high-order transmission boundarytotal field formulas
Cites Work
- Constructing non-reflecting boundary conditions using summation-by-parts in time
- Consistent infinitesimal finite-element cell method for diffusion equation in unbounded medium
- A local collocation method to construct Dirichlet-type absorbing boundary conditions for transient scalar wave propagation problems
- Coupling of boundary integral equation and finite element methods for transmission problems in acoustics
- Exact non-reflecting boundary conditions revisited: well-posedness and stability
- NUMERICAL STABILITY AND ACCURACY OF THE SCALED BOUNDARY FINITE ELEMENT METHOD IN ENGINEERING APPLICATIONS
- An improved continued-fraction-based high-order transmitting boundary for time-domain analyses in unbounded domains
- A modified scaled boundary finite element method for three-dimensional dynamic soil-structure interaction in layered soil
- FVM-FEM Coupling and its Application to Turbomachinery
- High-order doubly asymptotic open boundaries for scalar wave equation
- Dynamic Fluid-Structure Interaction Analysis Using Boundary Finite Element Method–Finite Element Method
- A continued-fraction-based high-order transmitting boundary for wave propagation in unbounded domains of arbitrary geometry
- Doubly asymptotic approximations as non-reflecting boundaries in fluid-structure interaction problems
- Doubly asymptotic approximations for transient motions of submerged structures
- CONSISTENT INFINITESIMAL FINITE-ELEMENT CELL METHOD: THREE-DIMENSIONAL VECTOR WAVE EQUATION
- An Exact Analysis of the Transient Interaction of Acoustic Plane Waves With a Cylindrical Elastic Shell
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