Open Access System for Information Sharing
All
Title
Author
Subject
Login
Library
Help
검색
HOME
Communities & Collections
Researchers
Title
Browse by Researchers
KWEON, JAE RYONG (권재룡)
Dept of Mathematics(수학과)
Field(s)
E-Mail
Homepage
Loading...
Export
Journal Papers
(International)
Journal Papers
(Domestic)
Conference Papers
(International)
Conference Papers
(Domestic)
Journal Papers(International)
Journal Papers(Domestic)
Conference Papers(International)
Conference Papers(Domestic)
30 items
100 items
200 items
Show more items...
H-INDEX
Chart.
Keyword
EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||BEHAVIOR:5||FLOWS:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||FLUIDS:3||EQUATION:3||APPROXIMATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||CORNERS:2||EDGES:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||nonconvex polygon:2||INTENSITY FUNCTIONS:2||SYSTEM:2||Edge flux coefficient:2||NavierStokes:2||CORNER SINGULARITIES:2||Fourierfinite element method:2||PLANAR CONTRACTIONS:2||DOMAIN:2||discontinuous solutions:1||76D05:1||Stress intensity function:1||Vorticityvelocitypressure formulation:1||Interior discontinuity:1||convectiondominance:1||polygon:1||Jump discontinuity:1||weak singularities:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||EXTERIOR DOMAINS:1||compressible Stokes equations:1||stress intensity function:1||a posteriori error estimate:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||compressible viscous flow:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||edge singularity:1||edge flux function:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||CRITICAL SPACES:1||HYPERBOLICEQUATIONS:1||Grazing corner:1||Incompressible flow:1||singular function:1||REGULARITY RESULT:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||INITIAL DATA:1||regularity:1||compressible viscous flows:1||Lame system:1||35Q30:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||incompressibility:1||
Publication & Time Cited Count
(For the Last 5 years)
Browse
Communities & Collections
Researcher
Title
Login
Library
Help
