Turbulence Modeling Through Deep Learning: An In-Depth Study of Wasserstein GANs
Wajdi Alghamdi, S. Mayakannan, G A Sivasankar, Jagendra Singh, B. Ravi Naik, Ch. Venkata Krishna Reddy
Abstract
This research study compares the accuracy of different techniques based on deep learning (DL) for predicting turbulent flows. Different types of Generative Adversarial Networks (GANs) are examined in terms of their applicability to the study and simulation of turbulence. Next, we select Wasserstein Gans (WGANs) to produce localized disturbances. Network features including the learning rate and loss function are examined as they pertain to the performance of the WGANs during training on turbulent data gleaned from high-resolution Direct Numerical Simulations (DNS). DNS input data and the generated turbulent structures are proven to agree qualitatively well. The projected turbulent fields are evaluated quantitatively and statistically.