INIS
accuracy
66%
applications
33%
augmentation
33%
balances
33%
buckling
33%
calibration
33%
deformation
100%
efficiency
66%
equations
33%
fluids
33%
gain
33%
instability
33%
interactions
100%
interfaces
33%
modeling
100%
motion
33%
nonlinear problems
100%
panels
33%
plates
33%
reduction
33%
shock tubes
33%
simulation
33%
speed
33%
spheres
33%
time resolution
33%
Engineering
Arbitrary Accuracy
50%
Buckling
50%
Computational Efficiency
50%
Demonstrates
50%
Elements
100%
Fluid
50%
Large Deformation
50%
Linearization
100%
Models
100%
Recalibration
50%
Reduced Order Model
50%
Reduction
50%
Small Deformation
50%
Sphere
50%
Supersonic Speed
50%
Truncation
50%