Deep learning for solution and inversion of structural mechanics and vibrations
This work addresses computational challenges in structural mechanics for engineers and researchers, but it is incremental as it applies existing methods to a specific domain.
The chapter applies deep learning and physics-informed neural networks to structural mechanics and vibration problems, demonstrating tasks such as de-noising data, solving time-dependent differential equations, and characterizing system responses.
Deep learning has been the most popular machine learning method in the last few years. In this chapter, we present the application of deep learning and physics-informed neural networks concerning structural mechanics and vibration problems. Demonstration problems involve de-noising data, solution to time-dependent ordinary and partial differential equations, and characterizing the system's response for a given data.