The aim of the present book is to show, in a broad and yet deep way, the state of the art in computational science and engineering. Examples of topics addressed are: fast and accurate numerical algorithms, model-order reduction, grid computing, immersed-boundary methods, and specific computational methods for simulating a wide variety of challenging problems, problems such as: fluid-structure interaction, turbulent flames, bone-fracture healing, micro-electro-mechanical systems, failure of composite materials, storm surges, particulate flows, and so on. The main benefit offered to readers of…mehr
The aim of the present book is to show, in a broad and yet deep way, the state of the art in computational science and engineering. Examples of topics addressed are: fast and accurate numerical algorithms, model-order reduction, grid computing, immersed-boundary methods, and specific computational methods for simulating a wide variety of challenging problems, problems such as: fluid-structure interaction, turbulent flames, bone-fracture healing, micro-electro-mechanical systems, failure of composite materials, storm surges, particulate flows, and so on. The main benefit offered to readers of the book is a well-balanced, up-to-date overview over the field of computational science and engineering, through in-depth articles by specialists from the separate disciplines.
Produktdetails
Produktdetails
Lecture Notes in Computational Science and Engineering 71
A Model Order Reduction Approach to Parametric Electromagnetic Inversion. Shifted Laplacian Preconditioners for Heterogeneous Helmholtz Problems. On Numerical Issues in Time Accurate Laminar Reacting Gas Flow Solvers. Parallel Scientific Computing on Loosely Coupled Networks of Computers. Data Assimilation Algorithms for Numerical Models. Radial Basis Functions for Interface Interpolation and Mesh Deformation. Least Squares Spectral Element Methods in Computational Fluid Dynamics. Finite Volume Discretizations and Immersed Boundaries. Large Eddy Simulation of Turbulent Non Premixed Jet Flames with a High Order Numerical Method. A Suite of Mathematical Models for Bone Ingrowth, Bone Fracture Healing and Intra Osseous Wound Healing. Numerical Modeling of the Electromechanical Interaction in MEMS. Simulation of Progressive Failure in Composite Laminates. Numerical Modeling of Wave Propagation, Breaking and Run Up on a Beach. Hybrid Navier Stokes/DSMC Simulations of Gas Flows with Rarefied Continuum Transitions. Multi Scale PDE Based Design of Hierarchically Structured Porous Catalysts. From Molecular Dynamics and Particle Simulations towards Constitutive Relations for Continuum Theory.
A Model-Order Reduction Approach to Parametric Electromagnetic Inversion.- Shifted-Laplacian Preconditioners for Heterogeneous Helmholtz Problems.- On Numerical Issues in Time Accurate Laminar Reacting Gas Flow Solvers.- Parallel Scientific Computing on Loosely Coupled Networks of Computers.- Data Assimilation Algorithms for Numerical Models.- Radial Basis Functions for Interface Interpolation and Mesh Deformation.- Least-Squares Spectral Element Methods in Computational Fluid Dynamics.- Finite-Volume Discretizations and Immersed Boundaries.- Large Eddy Simulation of Turbulent Non-Premixed Jet Flames with a High Order Numerical Method.- A Suite of Mathematical Models for Bone Ingrowth, Bone Fracture Healing and Intra-Osseous Wound Healing.- Numerical Modeling of the Electromechanical Interaction in MEMS.- Simulation of Progressive Failure in Composite Laminates.- Numerical Modeling of Wave Propagation, Breaking and Run-Up on a Beach.- Hybrid Navier-Stokes/DSMC Simulations of Gas Flows with Rarefied-Continuum Transitions.- Multi-Scale PDE-Based Design of Hierarchically Structured Porous Catalysts.- From Molecular Dynamics and Particle Simulations towards Constitutive Relations for Continuum Theory.
A Model Order Reduction Approach to Parametric Electromagnetic Inversion. Shifted Laplacian Preconditioners for Heterogeneous Helmholtz Problems. On Numerical Issues in Time Accurate Laminar Reacting Gas Flow Solvers. Parallel Scientific Computing on Loosely Coupled Networks of Computers. Data Assimilation Algorithms for Numerical Models. Radial Basis Functions for Interface Interpolation and Mesh Deformation. Least Squares Spectral Element Methods in Computational Fluid Dynamics. Finite Volume Discretizations and Immersed Boundaries. Large Eddy Simulation of Turbulent Non Premixed Jet Flames with a High Order Numerical Method. A Suite of Mathematical Models for Bone Ingrowth, Bone Fracture Healing and Intra Osseous Wound Healing. Numerical Modeling of the Electromechanical Interaction in MEMS. Simulation of Progressive Failure in Composite Laminates. Numerical Modeling of Wave Propagation, Breaking and Run Up on a Beach. Hybrid Navier Stokes/DSMC Simulations of Gas Flows with Rarefied Continuum Transitions. Multi Scale PDE Based Design of Hierarchically Structured Porous Catalysts. From Molecular Dynamics and Particle Simulations towards Constitutive Relations for Continuum Theory.
A Model-Order Reduction Approach to Parametric Electromagnetic Inversion.- Shifted-Laplacian Preconditioners for Heterogeneous Helmholtz Problems.- On Numerical Issues in Time Accurate Laminar Reacting Gas Flow Solvers.- Parallel Scientific Computing on Loosely Coupled Networks of Computers.- Data Assimilation Algorithms for Numerical Models.- Radial Basis Functions for Interface Interpolation and Mesh Deformation.- Least-Squares Spectral Element Methods in Computational Fluid Dynamics.- Finite-Volume Discretizations and Immersed Boundaries.- Large Eddy Simulation of Turbulent Non-Premixed Jet Flames with a High Order Numerical Method.- A Suite of Mathematical Models for Bone Ingrowth, Bone Fracture Healing and Intra-Osseous Wound Healing.- Numerical Modeling of the Electromechanical Interaction in MEMS.- Simulation of Progressive Failure in Composite Laminates.- Numerical Modeling of Wave Propagation, Breaking and Run-Up on a Beach.- Hybrid Navier-Stokes/DSMC Simulations of Gas Flows with Rarefied-Continuum Transitions.- Multi-Scale PDE-Based Design of Hierarchically Structured Porous Catalysts.- From Molecular Dynamics and Particle Simulations towards Constitutive Relations for Continuum Theory.
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