A genetic algorithms based multi-objective neural net applied to noisy blast furnace data
Applied Soft Computing, 2007•Elsevier
A genetic algorithms based multi-objective optimization technique was utilized in the training
process of a feed forward neural network, using noisy data from an industrial iron blast
furnace. The number of nodes in the hidden layer, the architecture of the lower part of the
network, as well as the weights used in them were kept as variables, and a Pareto front was
effectively constructed by minimizing the training error along with the network size. A
predator–prey algorithm efficiently performed the optimization task and several important …
process of a feed forward neural network, using noisy data from an industrial iron blast
furnace. The number of nodes in the hidden layer, the architecture of the lower part of the
network, as well as the weights used in them were kept as variables, and a Pareto front was
effectively constructed by minimizing the training error along with the network size. A
predator–prey algorithm efficiently performed the optimization task and several important …
A genetic algorithms based multi-objective optimization technique was utilized in the training process of a feed forward neural network, using noisy data from an industrial iron blast furnace. The number of nodes in the hidden layer, the architecture of the lower part of the network, as well as the weights used in them were kept as variables, and a Pareto front was effectively constructed by minimizing the training error along with the network size. A predator–prey algorithm efficiently performed the optimization task and several important trends were observed.
Elsevier
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