Linked e-resources
Details
Table of Contents
Intro; Contents; Proceedings of the 16th International Conference on Hyperbolic Problems: Theory, Numerics and Application; Organizer's Introduction; Reference; Speakers at the 16th International Conference on Hyperbolic Problems that Contributed to these Proceedings; A Stochastic Galerkin Method for the Fokker-Planck-Landau Equation with Random Uncertainties; 1 Introduction; 2 The gPC-sG Method for the FPL Equation with Uncertainties; 3 The Spatial and Time Discretization; 4 Consistency Analysis of the gPC-sG Method for the Collision Operator; 5 A Remark on High-Dimensional Random Spaces
6 Numerical Results6.1 Random Initial Data: A Shock Tube Problem; 6.2 The Landau Damping; 6.3 A Random Neutralizing Background; 6.4 An Example with a Two-Dimensional Random Variable; 6.5 An Example with a Six-Dimensional Random Domain; 7 Conclusion; References; On Robust and Adaptive Finite Volume Methods for Steady Euler Equations; 1 Introduction; 2 Finite Volume Framework for Steady Euler Equations; 2.1 Governing Equations; 2.2 Newton Linearization; 3 Solution Reconstruction; 4 Towards Efficiency; 5 Numerical Tests; 5.1 Subsonic Flow Through a Circular Cylinder
5.2 Inviscid Flow Through a Channel with a Smooth Bump5.3 Transonic Flow Around a NACA 0012 Airfoil; 6 Conclusion; References; The Burgers-Hilbert Equation; 1 The Burgers-Hilbert Equation; 2 Vorticity Discontinuities; 3 Smooth Solutions and Singularity Formation; 4 Shocks; 5 Small-Amplitude BH Dynamics; 6 Enhanced Life Span of Smooth Solutions; 7 Asymptotic Equation for the BH Equation; References; General Linear Methods for Time-Dependent PDEs; 1 Introduction; 2 Numerical Method; 2.1 The Hybridized Discontinuous Galerkin Method; 2.2 General Linear Methods
Existence of Undercompressive Shock Wave Solutions to the Euler Equations1 Introduction; 2 The Mathematical Model and the Main Result; 2.1 The Initial Boundary Value Problem; 3 Proof of the Main Result; References; Some Numerical Results of Regional Boundary Controllability with Output Constraints; 1 Introduction; 2 Preliminaries and Notations; 3 Lagrangian Approach; 4 Numerical Approach and Simulations; 5 Conclusion; References; Water Hammer Modeling for Water Networks via Hyperbolic PDEs and Switched DAEs; 1 Introduction; 2 Mathematical Model; 2.1 Models of Water Flow in Pipe
6 Numerical Results6.1 Random Initial Data: A Shock Tube Problem; 6.2 The Landau Damping; 6.3 A Random Neutralizing Background; 6.4 An Example with a Two-Dimensional Random Variable; 6.5 An Example with a Six-Dimensional Random Domain; 7 Conclusion; References; On Robust and Adaptive Finite Volume Methods for Steady Euler Equations; 1 Introduction; 2 Finite Volume Framework for Steady Euler Equations; 2.1 Governing Equations; 2.2 Newton Linearization; 3 Solution Reconstruction; 4 Towards Efficiency; 5 Numerical Tests; 5.1 Subsonic Flow Through a Circular Cylinder
5.2 Inviscid Flow Through a Channel with a Smooth Bump5.3 Transonic Flow Around a NACA 0012 Airfoil; 6 Conclusion; References; The Burgers-Hilbert Equation; 1 The Burgers-Hilbert Equation; 2 Vorticity Discontinuities; 3 Smooth Solutions and Singularity Formation; 4 Shocks; 5 Small-Amplitude BH Dynamics; 6 Enhanced Life Span of Smooth Solutions; 7 Asymptotic Equation for the BH Equation; References; General Linear Methods for Time-Dependent PDEs; 1 Introduction; 2 Numerical Method; 2.1 The Hybridized Discontinuous Galerkin Method; 2.2 General Linear Methods
Existence of Undercompressive Shock Wave Solutions to the Euler Equations1 Introduction; 2 The Mathematical Model and the Main Result; 2.1 The Initial Boundary Value Problem; 3 Proof of the Main Result; References; Some Numerical Results of Regional Boundary Controllability with Output Constraints; 1 Introduction; 2 Preliminaries and Notations; 3 Lagrangian Approach; 4 Numerical Approach and Simulations; 5 Conclusion; References; Water Hammer Modeling for Water Networks via Hyperbolic PDEs and Switched DAEs; 1 Introduction; 2 Mathematical Model; 2.1 Models of Water Flow in Pipe