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Hyperproperties for Robotics: Planning via HyperLTL

Yu Wang, Siddhartha Nalluri, Miroslav Pajić

202028 citationsDOI

Abstract

There is a growing interest on formal methods-based robotic planning for temporal logic objectives. In this work, we extend the scope of existing synthesis methods to hyper-temporal logics. We are motivated by the fact that important planning objectives, such as optimality, robustness, and privacy, (maybe implicitly) involve the interrelation between multiple paths. Such objectives are thus hyperproperties, and cannot be expressed with usual temporal logics like the linear temporal logic (LTL). We show that such hyperproperties can be expressed by HyperLTL, an extension of LTL to multiple paths. To handle the complexity of planning with HyperLTL specifications, we introduce a symbolic approach for synthesizing planning strategies on discrete transition systems. Our planning method is evaluated on several case studies.

Topics & Concepts

Computer scienceLinear temporal logicTemporal logicRobustness (evolution)Artificial intelligenceScope (computer science)Model checkingRoboticsExtension (predicate logic)Automated planning and schedulingTheoretical computer scienceRobotProgramming languageChemistryBiochemistryGeneFormal Methods in VerificationLogic, programming, and type systemsModel-Driven Software Engineering Techniques
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