ReLiNet: stable and explainable multistep prediction with recurrent linear parameter varying networks
ReLiNet: stable and explainable multistep prediction with recurrent linear parameter varying networks
Multistep prediction models are essential for the simulation and model-predictive control of dynamical systems. Verifying the safety of such models is a multi-faceted problem requiring both system-theoretic guarantees as well as establishing trust with human users. In this work, we propose a novel approach, ReLiNet (Recurrent Linear Parameter Varying Network), to ensure safety for multistep prediction of dynamical systems. Our approach simplifies a recurrent neural network to a switched linear system that is constrained to guarantee exponential stability, which acts as a surrogate for safety from a system-theoretic perspective. Furthermore, ReLiNet’s computation can be reduced to a single linear model for each time step, resulting in predictions that are explainable by definition, thereby establishing trust from a human-centric perspective. Our quantitative experiments show that ReLiNet achieves prediction accuracy comparable to that of state-of-the-art recurrent neural networks, while achieving more faithful and robust explanations compared to the model-agnostic explanation method of LIME.
International Joint Conferences on Artificial Intelligence
Baier, Alexandra
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Aspandi-Latif, Decky
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Staab, Steffen
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Baier, Alexandra
ca84c7c3-0b0a-485d-b7fe-ef41051791fd
Aspandi-Latif, Decky
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Staab, Steffen
bf48d51b-bd11-4d58-8e1c-4e6e03b30c49
Baier, Alexandra, Aspandi-Latif, Decky and Staab, Steffen
(2023)
ReLiNet: stable and explainable multistep prediction with recurrent linear parameter varying networks.
In Proceedings of the 32nd International Joint Conference on Artificial Intelligence.
International Joint Conferences on Artificial Intelligence.
9 pp
.
(In Press)
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Conference or Workshop Item
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Abstract
Multistep prediction models are essential for the simulation and model-predictive control of dynamical systems. Verifying the safety of such models is a multi-faceted problem requiring both system-theoretic guarantees as well as establishing trust with human users. In this work, we propose a novel approach, ReLiNet (Recurrent Linear Parameter Varying Network), to ensure safety for multistep prediction of dynamical systems. Our approach simplifies a recurrent neural network to a switched linear system that is constrained to guarantee exponential stability, which acts as a surrogate for safety from a system-theoretic perspective. Furthermore, ReLiNet’s computation can be reduced to a single linear model for each time step, resulting in predictions that are explainable by definition, thereby establishing trust from a human-centric perspective. Our quantitative experiments show that ReLiNet achieves prediction accuracy comparable to that of state-of-the-art recurrent neural networks, while achieving more faithful and robust explanations compared to the model-agnostic explanation method of LIME.
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Accepted/In Press date: 1 June 2023
Venue - Dates:
Proceedings of the Thirty-Second International Joint Conference on Artificial Intelligence (IJCAI-23), Macao, S.A.R.,, , Macao, Macao, 2023-08-19 - 2023-08-25
Identifiers
Local EPrints ID: 478296
URI: http://eprints.soton.ac.uk/id/eprint/478296
PURE UUID: 8453c790-4d51-4a44-9221-208cf53a5685
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Date deposited: 27 Jun 2023 17:21
Last modified: 17 Mar 2024 03:38
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Contributors
Author:
Alexandra Baier
Author:
Decky Aspandi-Latif
Author:
Steffen Staab
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