@article{oai:repo.qst.go.jp:00081811,
 author = {Mitsuru, Honda and Emi, Narita and Mitsuru, Honda and Emi, Narita},
 journal = {Plasma and Fusion Research},
 month = {Feb},
 note = {For accelerating a transport simulation with an advanced physics turbulent transport model like TGLF, we have been developing a surrogate model that mimics the behavior of the model based on a neural network model. With a steady-state transport solver GOTRESS used, the surrogate model has shown its ability to successfully predict temperature profiles almost equivalent to those by TGLF. The performance of the surrogate model is improved by optimizing hyperparameters and eliminating outliers from training data. Extrapolability of the optimized model is examined by changing the normalized temperature gradient. The objective is to better investigate the nature of the model in addition to measuring its utility in transport simulations. The versatile model, which has been trained with data of multiple cases, is developed applicable to many situations. It shows the same reproducibility as the model specific to each individual case, a fact which unveils great potential of the surrogate model in transport simulations.},
 title = {Development of a Surrogate Turbulent Transport Model and Its Usefulness in Transport Simulations},
 volume = {16},
 year = {2021}
}