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Büchi Automata as Specifications for Reactive SystemsFogarty, Seth 05 June 2013 (has links)
Computation is employed to incredible success in a massive variety of applications, and yet it is difficult to formally state what our computations are. Finding a way to model computations is not only valuable to understanding them, but central to automatic manipulations and formal verification. Often the most interesting computations are not functions with inputs and outputs, but ongoing systems that continuously react to user input. In the automata-theoretic approach, computations are modeled as words, a sequence of letters representing a trace of a computation. Each automaton accepts a set of words, called its language. To model reactive computation, we use Büchi automata: automata that operate over infinite words. Although the computations we are modeling are not infinite, they are unbounded, and we are interested in their ongoing properties. For thirty years, Büchi automata have been recognized as the right model for reactive computations.
In order to formally verify computations, however, we must also be able to create specifications that embody the properties we want to prove these systems possess. To date, challenging algorithmic problems have prevented Büchi automata from being used as specifications. I address two challenges to the use of Buechi automata as specifications in formal verification. The first, complementation, is required to check program adherence to a specification. The second, determination, is used in domains such as synthesis, probabilistic verification, and module checking. I present both empirical analysis of existing complementation constructions, and a new theoretical contribution that provides more deterministic complementation and a full determination construction.
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Büchi Automata as Specifications for Reactive SystemsFogarty, Seth 05 June 2013 (has links)
Computation is employed to incredible success in a massive variety of applications, and yet it is difficult to formally state what our computations are. Finding a way to model computations is not only valuable to understanding them, but central to automatic manipulations and formal verification. Often the most interesting computations are not functions with inputs and outputs, but ongoing systems that continuously react to user input. In the automata-theoretic approach, computations are modeled as words, a sequence of letters representing a trace of a computation. Each automaton accepts a set of words, called its language. To model reactive computation, we use Büchi automata: automata that operate over infinite words. Although the computations we are modeling are not infinite, they are unbounded, and we are interested in their ongoing properties. For thirty years, Büchi automata have been recognized as the right model for reactive computations.
In order to formally verify computations, however, we must also be able to create specifications that embody the properties we want to prove these systems possess. To date, challenging algorithmic problems have prevented Büchi automata from being used as specifications. I address two challenges to the use of Buechi automata as specifications in formal verification. The first, complementation, is required to check program adherence to a specification. The second, determination, is used in domains such as synthesis, probabilistic verification, and module checking. I present both empirical analysis of existing complementation constructions, and a new theoretical contribution that provides more deterministic complementation and a full determination construction.
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Nástroj pro práci s Büchi automaty / Tool for Büchi AutomataSchindler, Petr January 2013 (has links)
This thesis elaborates the Büchi automata theory and introduces a library that enables working with them. Basics of the automata theory is explained. The main part of this work is focused on Büchi automata, which belong to finite automata. The main properties of Büchi automata are explained and proved. The knowledge of those properties is important for understanding the algorithms mentioned in this work. The next part describes those algorithms and explains their principles in details. The design of library is described in the next part of this work. Main part is aimed at the implementation of the library and auxiliary scripts. The most interesting and important parts of methods are described in detail. Closing part describes testing of library functionality.
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Complementation of Büchi automata: A survey and implementation / Komplement till Büchi-automater: En översikt och implementationLindahl, Anders, Svensson, Mattias January 2004 (has links)
<p>This thesis is a survey of the field of languages over infinite sequences. There is active research going on in this field, during the last year several new results where published. </p><p>We investigate the language containment problem for infinite sequences, with focus on complementation of Büchi automata. Our main focus is on the approach with alternating automata by Kupferman&Vardi. The language containment problem has been proved to be in EXPSPACE. We identify some cases when we can avoid the exponential blow-up by taking advantage of properties of the input automaton. </p><p>Some of the algorithms we explain are also implemented in a Sicstus Prolog library.</p>
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Complementation of Büchi automata: A survey and implementation / Komplement till Büchi-automater: En översikt och implementationLindahl, Anders, Svensson, Mattias January 2004 (has links)
This thesis is a survey of the field of languages over infinite sequences. There is active research going on in this field, during the last year several new results where published. We investigate the language containment problem for infinite sequences, with focus on complementation of Büchi automata. Our main focus is on the approach with alternating automata by Kupferman&Vardi. The language containment problem has been proved to be in EXPSPACE. We identify some cases when we can avoid the exponential blow-up by taking advantage of properties of the input automaton. Some of the algorithms we explain are also implemented in a Sicstus Prolog library.
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Simulations and Antichains for Efficient Handling of Finite Automata / Simulace a protiřetězce pro efektivní práci s konečnými automatyHolík, Lukáš January 2011 (has links)
Cílem této práce je vývoj technik umožňujících praktické využití nedeterministických konečných automatů, zejména nedeterministických stromových automatů. Jde zvláště o techniky pro redukci velikosti a testování jazykové inkluze, jež hrají zásadní roli v mnoha oblastech aplikace konečných automatů. V oblasti redukce velikosti vycházíme z dobře známých metod pro slovní automaty které jsou založeny na relacích simulace. Navrhli jsme efektivní algoritmy pro výpočet stromových variant simulačních relací a identifikovali jsme nový typ relace založený na kombinaci takzvaných horních a dolních simulací nad stromovými automaty. Tyto kombinované relace jsou zvláště vhodné pro redukci velikosti automatů slučováním stavů. Navržený princip kombinace relací simulace je relevantní i pro slovní automaty. Náš přínos v oblasti testování jazykové inkluze je dvojí. Nejprve jsme zobecnili na stromové automaty takzvané protiřetězcové algoritmy, které byly původně navrženy pro slovními automaty. Dále se nám podařilo použitím simulačních relací výrazně zefektivnit protiřetězcové algoritmy pro testování jazykové inkluze jak pro slovní, tak pro stromové automaty. Relevanci našich technik pro praxi jsme demonstrovali jejich nasazením v rámci regulárního stromového model checkingu, což je verifikační metoda založená na stromových automatech. Použití našich algoritmů zde vedlo k výraznému zrychlení a zvětšení škálovatelnosti celé metody. Základní myšlenky našich algoritmů pro redukci velikosti automatů a testování jazykové inkluze jsou aplikovatelné i na jiné typy automatů. Příkladem jsou naše redukční techniky pro alternující Büchiho automaty prezentované v poslední části práce.
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