Hybrid modeling: Applications in real-time diagnosis

• URL: http://arxiv.org/abs/2003.02671v1
• Date: Wed, 4 Mar 2020 00:44:57 GMT
• Title: Hybrid modeling: Applications in real-time diagnosis
• Authors: Ion Matei, Johan de Kleer, Alexander Feldman, Rahul Rai, Souma Chowdhury
• Abstract summary: We outline a novel hybrid modeling approach that combines machine learning inspired models and physics-based models. We are using such models for real-time diagnosis applications.
• Score: 64.5040763067757
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Reduced-order models that accurately abstract high fidelity models and enable faster simulation is vital for real-time, model-based diagnosis applications. In this paper, we outline a novel hybrid modeling approach that combines machine learning inspired models and physics-based models to generate reduced-order models from high fidelity models. We are using such models for real-time diagnosis applications. Specifically, we have developed machine learning inspired representations to generate reduced order component models that preserve, in part, the physical interpretation of the original high fidelity component models. To ensure the accuracy, scalability and numerical stability of the learning algorithms when training the reduced-order models we use optimization platforms featuring automatic differentiation. Training data is generated by simulating the high-fidelity model. We showcase our approach in the context of fault diagnosis of a rail switch system. Three new model abstractions whose complexities are two orders of magnitude smaller than the complexity of the high fidelity model, both in the number of equations and simulation time are shown. The numerical experiments and results demonstrate the efficacy of the proposed hybrid modeling approach.

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