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A logic of goal-directed knowing how

Synthese 195 (10):4419-4439 (2018)

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  1. Epistemic logic.Vincent Hendricks - 2008 - Stanford Encyclopedia of Philosophy.
    Epistemic logic is the logic of knowledge and belief. It provides insight into the properties of individual knowers, has provided a means to model complicated scenarios involving groups of knowers and has improved our understanding of the dynamics of inquiry.
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  • Complexity of multi-agent conformant planning with group knowledge.Yanjun Li - 2023 - Synthese 201 (4):1-30.
    In this paper, we propose a dynamic epistemic framework to capture the knowledge evolution in multi-agent systems where agents are not able to observe. We formalize multi-agent conformant planning with group knowledge, and reduce planning problems to model checking problems. We prove that multi-agent conformant planning with group knowledge is Pspace -complete on the size of dynamic epistemic models. We also consider the alternative Kripke semantics, and show that for each Kripke model with perfect recall and no miracles, there is (...)
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  • Inquisitive logic as an epistemic logic of knowing how.Haoyu Wang, Yanjing Wang & Yunsong Wang - 2022 - Annals of Pure and Applied Logic 173 (10):103145.
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  • A logic of knowing why.Chao Xu, Yanjing Wang & Thomas Studer - 2021 - Synthese 198 (2):1259-1285.
    When we say “I know why he was late”, we know not only the fact that he was late, but also an explanation of this fact. We propose a logical framework of “knowing why” inspired by the existing formal studies on why-questions, scientific explanation, and justification logic. We introduce the Kyi\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${{\mathcal {K}}{}\textit{y}}_i$$\end{document} operator into the language of epistemic logic to express “agent i knows why φ\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} (...)
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  • A New Framework for Epistemic Logic.Yanjing Wang - 2017 - In Proceedings of TARK 2017. EPTCS. pp. 515-534.
    Recent years witnessed a growing interest in non-standard epistemic logics of knowing whether, knowing how, knowing what, knowing why and so on. The new epistemic modalities introduced in those logics all share, in their semantics, the general schema of ∃x◻φ, e.g., knowing how to achieve φ roughly means that there exists a way such that you know that it is a way to ensure that φ. Moreover, the resulting logics are decidable. Inspired by those particular logics, in this work, we (...)
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  • Bisimulations for Knowing How Logics.Raul Fervari, Fernando R. Velázquez-Quesada & Yanjing Wang - 2022 - Review of Symbolic Logic 15 (2):450-486.
    As a new type of epistemic logics, the logics of knowing how capture the high-level epistemic reasoning about the knowledge of various plans to achieve certain goals. Existing work on these logics focuses on axiomatizations; this paper makes the first study of their model theoretical properties. It does so by introducing suitable notions of bisimulation for a family of five knowing how logics based on different notions of plans. As an application, we study and compare the expressive power of these (...)
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  • Together we know how to achieve: An epistemic logic of know-how.Pavel Naumov & Jia Tao - 2018 - Artificial Intelligence 262 (C):279-300.
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  • Neighborhood semantics for logic of knowing how.Yanjun Li & Yanjing Wang - 2021 - Synthese 199 (3-4):8611-8639.
    In this paper, we give an alternative semantics to the non-normal logic of knowing how proposed by Fervari et al., based on a class of Kripke neighborhood models with both the epistemic relations and neighborhood structures. This alternative semantics is inspired by the same quantifier alternation pattern of ∃∀\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$$\exists \forall $$\end{document} in the semantics of the know-how modality and the neighborhood semantics for the standard modality. We show that this new semantics (...)
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  • Planning-based knowing how: A unified approach.Yanjun Li & Yanjing Wang - 2021 - Artificial Intelligence 296 (C):103487.
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  • Model Theoretical Aspects of Weakly Aggregative Modal Logic.Jixin Liu, Yifeng Ding & Yanjing Wang - 2022 - Journal of Logic, Language and Information 31 (2):261-286.
    Weakly Aggregative Modal Logic ) is a collection of disguised polyadic modal logics with n-ary modalities whose arguments are all the same. \ has interesting applications on epistemic logic, deontic logic, and the logic of belief. In this paper, we study some basic model theoretical aspects of \. Specifically, we first give a van Benthem–Rosen characterization theorem of \ based on an intuitive notion of bisimulation. Then, in contrast to many well known normal or non-normal modal logics, we show that (...)
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  • Data-informed knowledge and strategies.Junli Jiang & Pavel Naumov - 2022 - Artificial Intelligence 309 (C):103727.
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  • On composition of bounded-recall plans.Kaya Deuser & Pavel Naumov - 2020 - Artificial Intelligence 289 (C):103399.
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  • Knowing the price of success.Rui Cao & Pavel Naumov - 2020 - Artificial Intelligence 284 (C):103287.
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  • Knowing how to plan about planning: Higher-order and meta-level epistemic planning.Yanjun Li & Yanjing Wang - 2024 - Artificial Intelligence 337 (C):104233.
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