Annonce May 2019

annonce@lrde.epita.fr

1 participants
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Programme du Séminaire MeFoSyLoMa du 24 mai 2019 à l'Epita

by Alexandre Duret-Lutz

======================================================================== Séminaire MeFoSyLoMa http://www.mefosyloma.fr/ Méthodes Formelles pour les Systèmes Logiciels et Matériels vendredi 24 mai 2019, 14h-16h30 Adresse: Amphi 3 14-16 rue Voltaire, 94270 Le Kremlin-Bicêtre Métro Porte d'Italie Plans d'accès : https://www.google.com/maps/place/14+Rue+Voltaire,+94270+Le+Kremlin-Bicêtre/ https://www.lrde.epita.fr/~adl/dl/acces-amphi3.png S'il y en a parmi vous qui comptent venir en voiture, le parking du centre commercial Okabé est gratuit pendant 3h. http://www.okabe.com/okabe/fr/okabe-parking ======================================================================== Le séminaire MeFoSyLoMa est animé conjointement par les laboratoires Cedric (Cnam), IBISC (Univ. Evry), LACL (Univ. Paris 12), LIP6 (UPMC), LIPN (Univ. Paris 13), LRDE (Epita), LSV (École Normale Supérieure de Cachan) et LTCI (TELECOM ParisTech). Son objet est de permettre la confrontation de différentes approches ou points de vue sur l'utilisation des méthodes formelles dans les domaines du génie logiciel, de la conception de circuit, des systèmes répartis, des systèmes temps-réel ou encore des systèmes d'information. Il s'organise autour de réunions bimestrielles où sont exposés des travaux de recherche récents sur ce thème. ======================================================================== Programme 14h00-14h45: Benoît Barbot (LACL) Generation of Signals under Temporal Constraints for CPS Testing This work is concerned with validation of cyber-physical systems (CPS) via simulation based on sampling of the input signal space. Such a space is infinite and in general too difficult to treat symbolically meaning that the only reasonable option is to sample a finite subset of it and simulate the corresponding system behaviours. It is thus of great interest to choose a finite sample so that it best "covers" the whole space of input signals. We use timed automata to model temporal constraints, in order to avoid spurious bugs coming from unrealistic inputs and this can also reduce the input space to explore. We propose a method for low discrepancy generation of signals with temporal constraints recognised by timed automata. The discrepancy notion reflects how uniform the input signal space is sampled and additionally allows deriving validation and performance guarantees. We also show how this notion can be used to measure the discrepancy of a given set of input signals. We describe a prototype tool chain and demonstrate the proposed methods on a Kinetic Battery Model (KiBaM) and a Sigma Delta modulator. 14h45-15h30 : Alexandre Duret-Lutz (LRDE) Generic Emptiness Check for Fun and Profit Abstract: We present a new algorithm for checking the emptiness of ω-automata with an Emerson-Lei acceptance condition (i.e., a positive Boolean formula over sets of states or transitions that must be visited infinitely or finitely often). The algorithm can also solve the model checking problem of probabilistic positiveness of MDP under a property given as a deterministic Emerson-Lei automaton. Although these problems are known to be NP-complete and our algorithm is exponential in general, it runs in polynomial time for simpler acceptance conditions like generalized Rabin, Streett, or parity. In fact, the algorithm provides a unifying view on emptiness checks for these simpler automata classes. We have implemented the algorithm in Spot and PRISM and our experiments show improved performance over previous solutions. Joint work with C. Baier, F. Blahoudek, J. Klein, D. Müller, and J. Strejček. 15h30-16h00: pause café 16h00-16h30: vie du groupe ======================================================================== -- Alexandre Duret-Lutz

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Annonce May 2019