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KWEON, JAE RYONG (권재룡)
Dept of Mathematics(수학과)
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EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||EQUATIONS:9||Regularity:7||compressible flows:6||REGULARITY:6||POLYGON:5||FLOWS:5||BEHAVIOR:5||STEADYSTATE:4||corner singularity:4||INFLOW BOUNDARYCONDITION:4||Corner singularity:4||APPROXIMATION:3||FLUIDS:3||EQUATION:3||COMPRESSIBLE STOKES SYSTEM:2||NAVIERSTOKES EQUATIONS:2||EDGES:2||CORNERS:2||DOMAINS:2||AXISYMMETRICAL DOMAINS:2||compressible Stokes flows:2||SINGULARITIES:2||OPERATORS:2||INTENSITY FUNCTIONS:2||nonconvex polygon: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||convectiondominance:1||Interior discontinuity:1||polygon:1||Jump discontinuity:1||meshdependent norms:1||infsup condition:1||WEAK SOLUTIONS:1||BOUNDARY:1||DISCONTINUOUS SOLUTIONS:1||COMPRESSIBLE FLOWS:1||weak singularities:1||mixed finite element:1||optimal convergence:1||compressible viscous Stokes flow:1||cut:1||interior jump:1||Finite element solution:1||Jump discontinuities:1||Vector functions:1||POLYHEDRAL DOMAINS:1||SOBOLEV SPACES:1||stress intensity function:1||compressible Stokes equations:1||a posteriori error estimate:1||EXTERIOR DOMAINS:1||Stress intensity factor:1||Compressible viscous flow:1||Edge singularity:1||compressible viscous flow:1||Stationary compressible flows:1||Convergence rates:1||Error estimates:1||Mathematical techniques:1||FORMULATION:1||INCOMPRESSIBLE LIMIT:1||singular expansion:1||GLOBAL EXISTENCE:1||corner singularity expansion:1||76D03:1||CRITICAL SPACES:1||edge singularity:1||edge flux function:1||HYPERBOLICEQUATIONS:1||Computational methods:1||Numerical scheme:1||Velocity vectors:1||Grazing corner:1||Incompressible flow:1||FINITEELEMENT METHODS:1||BOUNDARYVALUEPROBLEMS:1||singular function:1||REGULARITY RESULT:1||INITIAL DATA:1||compressible viscous flows:1||regularity:1||Lame system:1||35Q30:1||incompressibility:1||Compressible viscous flows:1||Compressible flows:1||corner singularities:1||
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