A more accurate, stable, FDTD algorithm for electromagnetics in anisotropic dielectrics.
Gregory R. WernerCarl A. BauerJohn R. CaryPublished in: J. Comput. Phys. (2013)
Keyphrases
- high accuracy
- detection algorithm
- parallel implementation
- dynamic programming
- objective function
- learning algorithm
- computational complexity
- experimental evaluation
- single pass
- computationally efficient
- high quality
- preprocessing
- k means
- neural network
- improved algorithm
- memory requirements
- similarity measure
- expectation maximization
- search space
- reinforcement learning
- significant improvement
- input data
- lower bound
- worst case
- theoretical analysis
- convex hull
- recognition algorithm
- evolutionary algorithm
- optimal solution