Engineering
Finite Element Analysis
95%
Level Set
50%
Numerical Modeling
43%
Numerical Experiment
43%
Discretization
40%
Level Set Method
38%
Phase Composition
35%
Illustrates
30%
Erythrocyte
30%
Newtonian Fluid
30%
Fluid Flow
25%
Mathematical Model
25%
Boundary Condition
25%
Implicit Time
20%
Computational Fluid Dynamics
20%
Cardiomyocytes
20%
Subcellular
20%
Cardiac Myocytes
20%
Temporal Variation
20%
Partial Differential Equation
20%
Two Dimensional
18%
Finite Element Approximation
18%
Dimensional Case
15%
Capillary Force
15%
Newton's Method
15%
Resistive
15%
Lagrange Multiplier Method
15%
Bending Force
15%
Newtonian Flow
15%
Step Size α
15%
One Step
15%
High-Order Derivative
15%
Computer Simulation
15%
Anisotropic
13%
Spatial Discretization
13%
Free Surface
10%
Cardiac Cell
10%
Surface Tension Effect
10%
Finite Element Context
10%
Elastic Structure
10%
Continuum Model
10%
Conservation of Mass
10%
Potential Application
10%
Explicit Scheme
10%
Linear Finite Element
10%
Energy Engineering
10%
Optimality
10%
Hydrodynamics
10%
Optimal Control Problem
10%
Optimization Approach
10%
Mathematics
Finite Element Methods
100%
Level Set
95%
Time Integration
50%
Numerical Experiment
45%
Time Step
30%
Convergence Behavior
25%
Newtonian Fluid
25%
Mathematical Method
25%
Newton's Method
20%
PDE
20%
Nonexistence
20%
Time Discretization
20%
Spatial Discretization
15%
Discretization
15%
Penalty Method
15%
Finite Element Approximation
15%
Lagrange Multiplier Method
15%
Optimal Control Theory
10%
Incompressible Flow
10%
Free Surface
10%
Minimizes
10%
Nonlinear Problem
10%
Real Data
10%
Optimality
10%
Optimal Control Problem
10%
Experimental Data
10%
Index Theory
10%
Convergence Order
10%
Time Order
10%
Saddle Point
10%
Linear System
10%
Numerical Instability
10%
Convergence Property
10%
Numerical Approach
10%
Weak Solution
10%
test function φ
10%
Wave Equation
10%
Power Law
10%
Time Step Size
10%
Convergence Rate
10%
Reynolds Number
10%
Computer Simulation
10%
Numerical Example
10%
Nonlinear
5%
Second-Order Derivatives
5%
Dominates
5%
Computational Accuracy
5%
Dimensional Case
5%
Immersed Surface
5%
Explicit Scheme
5%