Optimization of dynamic behavior of thin-walled laminated cylindrical shells by genetic algorithms and deep neural networks supported by modal shape identification.
Bartosz MillerLeonard ZiemianskiPublished in: Adv. Eng. Softw. (2020)
Keyphrases
- dynamic behavior
- neural network
- genetic algorithm
- optimization method
- artificial neural networks
- fuzzy logic
- function optimization
- modular neural networks
- highly non linear
- evolution strategy
- expert systems
- pattern recognition
- parameter optimization
- optimization process
- global optimization
- evolutionary strategy
- shape descriptors
- shape model
- back propagation
- optimization algorithm
- speed control
- constrained optimization
- shape representation
- evolutionary algorithm
- shape analysis
- genetic algorithm ga
- feed forward
- neural network model
- neural nets
- metaheuristic
- simulated annealing
- genetic programming
- particle swarm optimization
- multi objective
- penalty function
- computational intelligence
- biological systems
- computational model
- multilayer perceptron
- optimization problems
- radial basis function
- combinatorial optimization