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Robustifying Controller Specifications of Cyber-Physical Systems Against Perceptual Uncertainty

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arxiv 2108.07509 v1 pith:ZBXWHQG6 submitted 2021-08-17 cs.SE

Robustifying Controller Specifications of Cyber-Physical Systems Against Perceptual Uncertainty

classification cs.SE
keywords controlleruncertaintyworkflowperceptualsystemsautomaticallydevelopersmodel
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Formal reasoning on the safety of controller systems interacting with plants is complex because developers need to specify behavior while taking into account perceptual uncertainty. To address this, we propose an automated workflow that takes an Event-B model of an uncertainty-unaware controller and a specification of uncertainty as input. First, our workflow automatically injects the uncertainty into the original model to obtain an uncertainty-aware but potentially unsafe controller. Then, it automatically robustifies the controller so that it satisfies safety even under the uncertainty. The case study shows how our workflow helps developers to explore multiple levels of perceptual uncertainty. We conclude that our workflow makes design and analysis of uncertainty-aware controller systems easier and more systematic.

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