Scalable forward reachability analysis of multi-agent systems with neural network controllers
Scalable forward reachability analysis of multi-agent systems with neural network controllers
Neural networks (NNs) have been shown to learn complex control laws successfully, often with performance advantages or decreased computational cost compared to alternative methods. Neural network controllers (NNCs) are, however, highly sensitive to disturbances and uncertainty, meaning that it can be challenging to make satisfactory robustness guarantees for systems with these controllers. This problem is exacerbated when considering multi-agent NN-controlled systems, as existing reachability methods often scale poorly for large systems. This paper addresses the problem of finding overapproximations of forward reachable sets for discretetime uncertain multi-agent systems with distributed NNC architectures. We first reformulate the dynamics, making the system more amenable to reachablility analysis. Next, we take advantage of the distributed architecture to split the overall reach ability problem into smaller problems, significantly reducing computation time. We use quadratic constraints, along with a convex representation of uncertainty in each agent's model, to form semidefinite programs, the solutions of which give overapproximations of forward reachable sets for each agent. Finally, the methodology is tested on two realistic examples: a platoon of vehicles and a power network system.
67-72
Gates, Oliver
f5efe699-7599-44ea-a4e9-2578bae6ee05
Newton, Matthew
68e6b95b-3c8d-4210-926e-95751dd769fd
Gatsis, Konstantinos
f808d11b-38f1-4a44-ba56-3364d63558d7
19 January 2024
Gates, Oliver
f5efe699-7599-44ea-a4e9-2578bae6ee05
Newton, Matthew
68e6b95b-3c8d-4210-926e-95751dd769fd
Gatsis, Konstantinos
f808d11b-38f1-4a44-ba56-3364d63558d7
Gates, Oliver, Newton, Matthew and Gatsis, Konstantinos
(2024)
Scalable forward reachability analysis of multi-agent systems with neural network controllers.
In Proceedings of the 62nd IEEE Conference on Decision and Control.
.
(doi:10.1109/CDC49753.2023.10384185).
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Conference or Workshop Item
(Paper)
Abstract
Neural networks (NNs) have been shown to learn complex control laws successfully, often with performance advantages or decreased computational cost compared to alternative methods. Neural network controllers (NNCs) are, however, highly sensitive to disturbances and uncertainty, meaning that it can be challenging to make satisfactory robustness guarantees for systems with these controllers. This problem is exacerbated when considering multi-agent NN-controlled systems, as existing reachability methods often scale poorly for large systems. This paper addresses the problem of finding overapproximations of forward reachable sets for discretetime uncertain multi-agent systems with distributed NNC architectures. We first reformulate the dynamics, making the system more amenable to reachablility analysis. Next, we take advantage of the distributed architecture to split the overall reach ability problem into smaller problems, significantly reducing computation time. We use quadratic constraints, along with a convex representation of uncertainty in each agent's model, to form semidefinite programs, the solutions of which give overapproximations of forward reachable sets for each agent. Finally, the methodology is tested on two realistic examples: a platoon of vehicles and a power network system.
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Published date: 19 January 2024
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Local EPrints ID: 494562
URI: http://eprints.soton.ac.uk/id/eprint/494562
PURE UUID: 6fddfc53-eb80-49e6-9f94-1382aea2452e
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Date deposited: 10 Oct 2024 16:46
Last modified: 11 Oct 2024 02:08
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Author:
Oliver Gates
Author:
Matthew Newton
Author:
Konstantinos Gatsis
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