Florian Renkin scite author profile

Florian Renkin

5Publications

25Citation Statements Received

73Citation Statements Given

How they've been cited

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107

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Graduate School of Computer Science and Advanced Technologies

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From Spot 2.0 to Spot 2.10: What’s New?

Duret-Lutz

Renault

Colange

et al. 2022

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Spot is a C++17 library for LTL and $$\omega $$ ω -automata manipulation, with command-line utilities, and Python bindings. This paper summarizes its evolution over the past six years, since the release of Spot 2.0, which was the first version to support $$\omega $$ ω -automata with arbitrary acceptance conditions, and the last version presented at a conference. Since then, Spot has been extended with several features such as acceptance transformations, alternating automata, games, LTL synthesis, and more. We also shed some lights on the data-structure used to store automata.Artifact:https://zenodo.org/record/6521395.

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Practical “Paritizing” of Emerson-Lei Automata

Renkin

Duret-Lutz

Pommellet

2020

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We introduce a new algorithm that takes a Transition-based Emerson-Lei Automaton (TELA), that is, an ω-automaton whose acceptance condition is an arbitrary Boolean formula on sets of transitions to be seen infinitely or finitely often, and converts it into a Transition-based Parity Automaton (TPA). To reduce the size of the output TPA, the algorithm combines and optimizes two procedures based on a latest appearance record principle, and introduces a partial degeneralization. Our motivation is to use this algorithm to improve our LTL synthesis tool, where producing deterministic parity automata is an intermediate step.

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Practical Applications of the Alternating Cycle Decomposition

Casares

Duret-Lutz

Meyer³

et al. 2022

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In 2021, Casares, Colcombet, and Fijalkow introduced the Alternating Cycle Decomposition (ACD) to study properties and transformations of Muller automata. We present the first practical implementation of the ACD in two different tools, Owl and Spot, and adapt it to the framework of Emerson-Lei automata, i.e., $$\omega $$ ω -automata whose acceptance conditions are defined by Boolean formulas. The ACD provides a transformation of Emerson-Lei automata into parity automata with strong optimality guarantees: the resulting parity automaton is minimal among those automata that can be obtained by duplication of states. Our empirical results show that this transformation is usable in practice. Further, we show how the ACD can generalize many other specialized constructions such as deciding typeness of automata and degeneralization of generalized Büchi automata, providing a framework of practical algorithms for $$\omega $$ ω -automata.

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Effective Reductions of Mealy Machines

Renkin

Duret-Lutz

Pommellet

2022

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The Mealy-machine reduction functions of Spot

Renkin

Duret-Lutz

Pommellet

2023

Science of Computer Programming

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Florian Renkin

From Spot 2.0 to Spot 2.10: What’s New?

Practical “Paritizing” of Emerson-Lei Automata

Practical Applications of the Alternating Cycle Decomposition

Effective Reductions of Mealy Machines

The Mealy-machine reduction functions of Spot

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