University of Cagliari
partially_open
Veronka Szoke
Certification of autoencoder-based models for dynamical systems
Deplano, Diego;Giua, Alessandro;Franceschelli, Mauro
Last
2025-01-01
Abstract
Deep learning models have emerged as powerful tools for modeling complex dynamical systems, offering data-driven alternatives to traditional identification techniques. Among them, autoencoder-based architectures have gained popularity due to their ability to extract low-dimensional latent representations starting from high-dimensional information. However, a major challenge persists: assessing the reliability of these models, especially in control tasks where prediction errors can have critical consequences. In this work, we propose an optimization-based certification approach to quantify the worst-case prediction error of ReLU-activated autoencoder models of dynamical systems. By formulating a targeted Mixed-Integer Quadratic Programming, our approach identifies data sequences that maximize the deviation between the model’s predicted output and the true system response.
Files in This Item:
| File | Size | Format | |
|---|---|---|---|
| Certification_of_Autoencoder-based_Models_for_Dynamical_Systems.pdf Solo gestori archivio
Description: VoR
Type: versione editoriale
Size 1.03 MB
Format Adobe PDF
|
1.03 MB | Adobe PDF | & nbsp; View / Open Request a copy |
| Certification_of_AAM.pdf open access
Description: AAM
Type: Author’s Accepted Manuscript AAM, Post-print, (version accepted by the publisher)
Size 1.76 MB
Format Adobe PDF
|
1.76 MB | Adobe PDF | View/Open |
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