Verification of Neural-Network Control Systems by Integrating Taylor Models and Zonotopes

Authors

  • Christian Schilling Aalborg University
  • Marcelo Forets Universidad de la República
  • Sebastián Guadalupe Universidad de la República

DOI:

https://doi.org/10.1609/aaai.v36i7.20790

Keywords:

Machine Learning (ML)

Abstract

We study the verification problem for closed-loop dynamical systems with neural-network controllers (NNCS). This problem is commonly reduced to computing the set of reachable states. When considering dynamical systems and neural networks in isolation, there exist precise approaches for that task based on set representations respectively called Taylor models and zonotopes. However, the combination of these approaches to NNCS is non-trivial because, when converting between the set representations, dependency information gets lost in each control cycle and the accumulated approximation error quickly renders the result useless. We present an algorithm to chain approaches based on Taylor models and zonotopes, yielding a precise reachability algorithm for NNCS. Because the algorithm only acts at the interface of the isolated approaches, it is applicable to general dynamical systems and neural networks and can benefit from future advances in these areas. Our implementation delivers state-of-the-art performance and is the first to successfully analyze all benchmark problems of an annual reachability competition for NNCS.

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Published

2022-06-28

How to Cite

Schilling, C., Forets, M., & Guadalupe, S. (2022). Verification of Neural-Network Control Systems by Integrating Taylor Models and Zonotopes. Proceedings of the AAAI Conference on Artificial Intelligence, 36(7), 8169-8177. https://doi.org/10.1609/aaai.v36i7.20790

Issue

Section

AAAI Technical Track on Machine Learning II