Abstract
This work retraces the main recent advances in the so-called non-intrusive model order reduction, and more concretely, the construction of parametric solutions related to parametric models, with special emphasis on the technologies enabling allying accuracy, frugality and robustness. Thus, different technologies will be revisited beyond the usual metamodeling techniques making use of polynomial basis or kriging, for addressing multi-parametric models, with sometimes several tens of parameters, while keeping the complexity (DoE size) scaling with the number of parameters. Moreover, sparsity can be profitable for increasing accuracy while avoiding overfitting, and when combined with ANOVA-based decompositions the benefits are potentially huge.
Highlights
Nowadays, engineering applications concern extremely large and complex systems, where simulation is involved in the design stage for evaluating the performances related to the nominal loadings
Nowadays physics can be solved in almost real-time, for example by using model order reduction, and accuracy of standard models can be improved from the collected data manipulated by using adequate artificial intelligence -AI- techniques, when possible physics-aware
In the work we are focusing on the first topic, the one of physics in real-time, by invoking advanced model order reduction techniques
Summary
Nowadays, engineering applications concern extremely large and complex systems, where simulation is involved in the design stage for evaluating the performances related to the nominal loadings. Simulation is expected to enable learning, monitoring to anticipate fortuitus events, to take the adequate decisions under the stringent real-time constraint. Nowadays physics can be solved in almost real-time, for example by using model order reduction, and accuracy of standard models can be improved from the collected data manipulated by using adequate artificial intelligence -AI- techniques, when possible physics-aware. This hybrid paradigm is at the origin of numerous success stories in engineering and technology. In the work we are focusing on the first topic, the one of physics in real-time, by invoking advanced model order reduction techniques.
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