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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
41

Instrumentation of timed automata for formal verification of timed properties

Hagman, Mikael January 2007 (has links)
<p>Embedded systems are used in many technical products of today. The tendency also points to the fact that they are in many ways becoming more and more complex as technology advances. Systems like advanced avionics, air bags, ABS brakes or any real-time embedded system requires reliability, correctness and timeliness. This puts hard pressure on designers, analyzers and developers. The need for high performance and non failing systems has therefore led to a growing interest in modeling and verification of component-based embedded systems in order to reduce costs and simplify design and development. The solution proposed by the Embedded Systems Lab at Linköping University is the modeling language PRES+, Petri Net based Representation for Embedded Systems.</p><p>PRES+ models are then translated into timed automata, TA, which is used by the UPPAAL verification tool. To be able to verify timing properties the translated TA model must be instrumented with certain timers, called clocks. These clocks must be reset in a manner reflected by the property to be verified.</p><p>This thesis will provide a solution to the problem and also give the reader necessary information in order to understand the theoretical background needed. The thesis will also show the reader the importance of modeling and time verification in the development of embedded systems. A simple example is used to describe and visualize the benefit regarding real-time embedded systems as well as the importance of the ability to verify these systems.</p><p>The conclusion drawn stresses the fact that high development costs, possible gain of human lives and the problems in developing complex systems only emphasize the need for easy to handle and intuitive verification methods.</p>
42

Verification of Component-based Embedded System Designs

Karlsson, Daniel January 2006 (has links)
Embedded systems are becoming increasingly common in our everyday lives. As technology progresses, these systems become more and more complex. Designers handle this increasing complexity by reusing existing components. At the same time, the systems must fulfill strict functional and non-functional requirements. This thesis presents novel and efficient techniques for the verification of component-based embedded system designs. As a common basis, these techniques have been developed using a Petri net based modelling approach, called PRES+. Two complementary problems are addressed: component verification and integration verification. With component verification the providers verify their components so that they function correctly if given inputs conforming to the assumptions imposed by the components on their environment. Two techniques for component verification are proposed in the thesis. The first technique enables formal verification of SystemC designs by translating them into the PRES+ representation. The second technique involves a simulation based approach into which formal methods are injected to boost verification efficiency. Provided that each individual component is verified and is guaranteed to function correctly, the components are interconnected to form a complete system. What remains to be verified is the interface logic, also called glue logic, and the interaction between components. Each glue logic and interface cannot be verified in isolation. It must be put into the context in which it is supposed to work. An appropriate environment must thus be derived from the components to which the glue logic is connected. This environment must capture the essential properties of the whole system with respect to the properties being verified. In this way, both the glue logic and the interaction of components through the glue logic are verified. The thesis presents algorithms for automatically creating such environments as well as the underlying theoretical framework and a step-by-step roadmap on how to apply these algorithms.
43

Scheduling for a Large-Scale Production System Based on a Continuous and Timed Petri-Net Model

OKUMA, Shigeru, SUZUKI, Tatsuya, INABA, Akio, KIM, YoungWoo 01 March 2003 (has links)
No description available.
44

Specification and Automatic Generation of Simulation Models with Applications in Semiconductor Manufacturing

Mueller, Ralph 21 May 2007 (has links)
The creation of large-scale simulation models is a difficult and time-consuming task. Yet simulation is one of the techniques most frequently used by practitioners in Operations Research and Industrial Engineering, as it is less limited by modeling assumptions than many analytical methods. The effective generation of simulation models is an important challenge. Due to the rapid increase in computing power, it is possible to simulate significantly larger systems than in the past. However, the verification and validation of these large-scale simulations is typically a very challenging task. This thesis introduces a simulation framework that can generate a large variety of manufacturing simulation models. These models have to be described with a simulation data specification. This specification is then used to generate a simulation model which is described as a Petri net. This approach reduces the effort of model verification. The proposed Petri net data structure has extensions for time and token priorities. Since it builds on existing theory for classical Petri nets, it is possible to make certain assertions about the behavior of the generated simulation model. The elements of the proposed framework and the simulation execution mechanism are described in detail. Measures of complexity for simulation models that are built with the framework are also developed. The applicability of the framework to real-world systems is demonstrated by means of a semiconductor manufacturing system simulation model.
45

Modeling and Analysis of Cooperative Search Systems

Portilla, Carlos A. 08 July 2010 (has links)
The analysis of performance gains arising from cueing in cooperative search systems with autonomous vehicles has been studied using Continuous Time Markov Chains; where the search time distributions are assumed to follow the exponential distributions. This work proposes the use of Petri Nets to model and analyze these systems. The Petri Net model considers two types of autonomous vehicles: a search-only vehicle and n search-engage vehicles. Specific performance metrics are defined to measure system’s performance. Through simulation, it is shown that the search time with stationary targets and cues that provide exact target location follows a triangular distribution. A methodology for approximating general distributions and incorporating them into the Petri Net model for performance analysis is presented.
46

Performance and security trade-offs in high-speed networks : an investigation into the performance and security modelling and evaluation of high-speed networks based on the quantitative analysis and experimentation of queueing networks and generalised stochastic Petri nets

Miskeen, Guzlan Mohamed Alzaroug January 2013 (has links)
Most used security mechanisms in high-speed networks have been adopted without adequate quantification of their impact on performance degradation. Appropriate quantitative network models may be employed for the evaluation and prediction of 'optimal' performance vs. security trade-offs. Several quantitative models introduced in the literature are based on queueing networks (QNs) and generalised stochastic Petri nets (GSPNs). However, these models do not take into consideration Performance Engineering Principles (PEPs) and the adverse impact of traffic burstiness and security protocols on performance. The contributions of this thesis are based on the development of an effective quantitative methodology for the analysis of arbitrary QN models and GSPNs through discrete-event simulation (DES) and extended applications into performance vs. security trade-offs involving infrastructure and infrastructure-less high-speed networks under bursty traffic conditions. Specifically, investigations are carried out focusing, for illustration purposes, on high-speed network routers subject to Access Control List (ACL) and also Robotic Ad Hoc Networks (RANETs) with Wired Equivalent Privacy (WEP) and Selective Security (SS) protocols, respectively. The Generalised Exponential (GE) distribution is used to model inter-arrival and service times at each node in order to capture the traffic burstiness of the network and predict pessimistic 'upper bounds' of network performance. In the context of a router with ACL mechanism representing an infrastructure network node, performance degradation is caused due to high-speed incoming traffic in conjunction with ACL security computations making the router a bottleneck in the network. To quantify and predict the trade-off of this degradation, the proposed quantitative methodology employs a suitable QN model consisting of two queues connected in a tandem configuration. These queues have single or quad-core CPUs with multiple-classes and correspond to a security processing node and a transmission forwarding node. First-Come-First-Served (FCFS) and Head-of-the-Line (HoL) are the adopted service disciplines together with Complete Buffer Sharing (CBS) and Partial Buffer Sharing (PBS) buffer management schemes. The mean response time and packet loss probability at each queue are employed as typical performance metrics. Numerical experiments are carried out, based on DES, in order to establish a balanced trade-off between security and performance towards the design and development of efficient router architectures under bursty traffic conditions. The proposed methodology is also applied into the evaluation of performance vs. security trade-offs of robotic ad hoc networks (RANETs) with mobility subject to Wired Equivalent Privacy (WEP) and Selective Security (SS) protocols. WEP protocol is engaged to provide confidentiality and integrity to exchanged data amongst robotic nodes of a RANET and thus, to prevent data capturing by unauthorised users. WEP security mechanisms in RANETs, as infrastructure-less networks, are performed at each individual robotic node subject to traffic burstiness as well as nodal mobility. In this context, the proposed quantitative methodology is extended to incorporate an open QN model of a RANET with Gated queues (G-Queues), arbitrary topology and multiple classes of data packets with FCFS and HoL disciplines under bursty arrival traffic flows characterised by an Interrupted Compound Poisson Process (ICPP). SS is included in the Gated-QN (G-QN) model in order to establish an 'optimal' performance vs. security trade-off. For this purpose, PEPs, such as the provision of multiple classes with HoL priorities and the availability of dual CPUs, are complemented by the inclusion of robot's mobility, enabling realistic decisions in mitigating the performance of mobile robotic nodes in the presence of security. The mean marginal end-to-end delay was adopted as the performance metric that gives indication on the security improvement. The proposed quantitative methodology is further enhanced by formulating an advanced hybrid framework for capturing 'optimal' performance vs. security trade-offs for each node of a RANET by taking more explicitly into consideration security control and battery life. Specifically, each robotic node is represented by a hybrid Gated GSPN (G-GSPN) and a QN model. In this context, the G-GSPN incorporates bursty multiple class traffic flows, nodal mobility, security processing and control whilst the QN model has, generally, an arbitrary configuration with finite capacity channel queues reflecting 'intra'-robot (component-to-component) communication and 'inter'-robot transmissions. Two theoretical case studies from the literature are adapted to illustrate the utility of the QN towards modelling 'intra' and 'inter' robot communications. Extensions of the combined performance and security metrics (CPSMs) proposed in the literature are suggested to facilitate investigating and optimising RANET's performance vs. security trade-offs. This framework has a promising potential modelling more meaningfully and explicitly the behaviour of security processing and control mechanisms as well as capturing the robot's heterogeneity (in terms of the robot architecture and application/task context) in the near future (c.f. [1]. Moreover, this framework should enable testing robot's configurations during design and development stages of RANETs as well as modifying and tuning existing configurations of RANETs towards enhanced 'optimal' performance and security trade-offs.
47

Modeling A Modern Marble Processing Plant By Using Petri Net

Keser, Ozge 01 December 2003 (has links) (PDF)
ABSTRACT MODELING A MODERN MARBLE PROCESSING PLANT BY USING PETRI NET Keser, &Ouml / zge M. Sc., Department of Mining Engineering Supervisor: Prof Dr. NeS&rsquo / e &Ccedil / elebi Co-Supervisor: Prof Dr. Tevfik G&uuml / yag&uuml / ler December 2003, 110 pages All developing countries need sufficient raw material resources to develop and to guarantee their future. Considering Turkish natural resources, marble has a great importance because of its demand on the market, reserve amount and quality. However, some effort is required to improve the existing marble production and processing efficiency. Petri nets (PNs) are the information models that control the flow for concurrent and synchronous systems. In this regard, PN application can be useful. However, its application is limited to the complex systems and no application of PN is available in mining sector. iii In this sense, this study aims to examine the applicability of PN to mining. This study examines the production system in order to optimize the process in case of two different types of marble product orders. Three case studies are applied to examine benefits and difficulties in implementation of PN to a marble processing plant. The study shows that PN can successfully be used as a tool for the optimization of total production time, simulation and modeling of the system. It provides to see the sequence of the processes, their time, remaining time of each transition and optimum total production times. The difficulties of PN implementation are found out as the determination of each path in the reachability graph, matrix representation with large quantity of place, etc.
48

Ferramentas para a integração de redes de Petri e VHDL na síntese de sistemas digitais

Dias, Giorjety Licorini [UNESP] 22 February 2007 (has links) (PDF)
Made available in DSpace on 2014-06-11T19:22:35Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-02-22Bitstream added on 2014-06-13T19:08:13Z : No. of bitstreams: 1 dias_gl_me_ilha.pdf: 1512537 bytes, checksum: d4d0e5ee3964bcbc96c83e3996d96313 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Neste trabalho apresentam-se quatro ferramentas de síntese digital, capazes de converter máquinas de estados finitos modeladas em rede de Petri para uma descrição VHDL correspondente à maquina modelada. As máquinas de estados finitos nos modelos de Mealy ou Moore são representadas em rede de Petri Lugar/Transição através de duas metodologias de modelagem desenvolvidas. Uma das metodologias modela apenas máquinas do tipo Mealy, enquanto que a outra modela máquinas de Mealy e Moore. As metodologias e o tipo de tradução da rede de Petri que se deseja obter são fatores essenciais para definir as ferramentas que serão utilizadas. Duas das ferramentas desenvolvidas traduzem o modelo da rede de Petri em uma tabela de transição de estados e as outras duas ferramentas traduzem o modelo da rede de Petri em uma descrição comportamental na linguagem VHDL. Dependendo da ferramenta utilizada é necessário integrar outras ferramentas de síntese, desenvolvidas em trabalhos anteriores, no processo de tradução da rede de Petri para VHDL. A aplicabilidade das ferramentas e metodologias desenvolvidas foi concluída através de simulações dos códigos VHDL obtidos. / In this work we present four digital synthesis tools capable of converting finite state machines modeled in Petri nets into a corresponding VHDL description. Mealy or Moore finite state machine models are represented in Place/Transition Petri nets through two possible methodologies, developed during this work. With one of the methodologies only Mealy machines can be modeled, while the with other both Mealy and Moore type machines can be dealt with. The methodologies and the kind of Petri net translation one desires to obtain are essential factors to determine the tools to be used. Two among the tools we developed translate a Petri net description into a state transition table, while the other two translate the Petri net description into a VHDL behavioral one. Depending on which of them is used it is also necessary to use some other synthesis tools developed by members of our research group. The adequacy of the developed methodologies an tools to the synthesis process has been verified through the simulation of the VHDL codes generated by our tools.
49

Design and Implementation of a Tool for Modeling, Simulation and Verification of Component-based Embedded Systems

Wang, Xiaobo January 2004 (has links)
Nowadays, embedded systems are becoming more and more complex. For this reason, designers focus more and more to adopt component-based methods for their designs. Consequently, there is an increasing interest on modeling and verification issues of component-based embedded systems. In this thesis, a tool, which integrates modeling, simulation and verification of component-based embedded systems, is designed and implemented. This tool uses the PRES+, Petri Net based Representation for Embedded Systems, to model component-based embedded systems. Both simulation and verification of systems are based on the PRES+ models. This tool consists of three integrated sub-tools, each of them with a graphical interface, the PRES+ Modeling tool, the PRES+ Simulation tool and the PRES+ Verification tool. The PRES+ Modeling tool is a graphical editor, with which system designers can model component-based embedded systems easily. The PRES+ Simulation tool, which is used to validate systems, visualizes the execution of a model in an intuitive manner. The PRES+ Verification tool provides a convenient access to a model checker, in which models can be formally verified with respect to temporal logic formulas.
50

GHENeSys, uma rede unificada e de alto nível. / GHENeSys, a unified and high level net.

José Armando San Pedro Miralles 23 March 2012 (has links)
Esquemas baseados em grafos, em diferentes níveis de formalismo, são um forte apelo para a constituição de representações de sistemas complexos e de grande porte aplicados em várias áreas do conhecimento. Este fato responde pelo crescimento acentuado de métodos e representações formais baseadas em grafos e aplicadas em diferentes áreas, especialmente na Engenharia. As Redes de Petri (RdP) constituem um destes métodos, que apareceu em 1962 e desde então tem contribuído para o avanço dos métodos formais para o tratamento de sistemas de controle, sistemas discretos, logística, workflow, cadeia de fornecedores, redes de computadores, e uma variada classe de outros sistemas. Da mesma forma que outras representações formais, as primeiras tentativas de uso prático destas redes estiveram sempre ligadas ao domínio de aplicação, o que levou à criação de várias extensões. Por outro lado, a necessidade de se aplicar a representação em redes para sistemas de grande porte suscitou a discussão sobre as limitações do formalismo e sobre a necessidade de se inserir redes de alto nível. No entanto, todo este desenvolvimento, apesar de sua difusão em diferentes domínios, levantou a discussão sobre a unificação das redes. Desde 1992 a unificação do formalismo das RdPs é discutida pela comunidade acadêmica e, finalmente, no início deste século um padrão ISO/IEC foi proposto. Esta proposta conduz a dois desafios: i) mostrar que um formalismo de redes que seja candidato a ser usado na prática pertença de fato à classe de redes prescrita pelo padrão; ii) participar da discussão sobre a semântica das extensões propondo ambientes computacionais para o uso prático na modelagem e design de sistemas de grande porte. A rede GHENeSys, concebida e desenvolvida no Design Lab da Universidade de São Paulo, é uma rede estendida com conceitos de orientação a objetos, um mecanismo de hierarquia e, até o momento, parece ser uma das primeiras tentativas de prover um ambiente de modelagem e design com as propriedades de uma rede unificada, com capacidade para cobrir as diferentes variantes das RdP e suas extensões. Neste trabalho é apresentada uma proposta de ambiente integrado de modelagem para a representação de sistemas a eventos discretos (SEDs) em RdP, baseada em um formalismo enquadrado dentro da norma ISO/IEC 15909 recentemente proposta. Este formalismo é a rede GHENeSys, que terá sua definição estendida utilizando como base a definição das RdPs Coloridas (CPN) com o objetivo de permitir a representação de tipos nas marcas. Um protótipo para testes, resultado da integração de diversos trabalhos desenvolvidos separadamente por membros do D-Lab que nunca foram implementados nem integrados em formalismo único, é apresentado. Este protótipo é utilizado em um estudo de caso com a finalidade de validar de forma prática os novos elementos acrescentados à definição da rede GHENeSys para permitir a modelagem de sistemas utilizando os elementos das RdPs de alto nível. / Graph schemas are a strong approach to the representation (in dierent degrees of formality) of large and complex systems in several areas of knowledge. This fact has provided a continuous growth of methods and new formal schemas, specially in Engineering. Petri Nets(PN) are one of these methods, which appears in 1962 and since then has improved the representation of discrete control, discrete systems, logistics, workflow, supply chain, computer networks, and a variety of other systems. As any other representation, the first attempts to use it in practice were always made in a close relation between the representation and the domain of discourse, openning opportunity for several extensions. Also the need to use it in large systems brought a discussion about the formalism and the need for high level systems. However, all this development, besides the broad use in different domains, rose the need for an unified approach. Since 1992 such unification has been addressed by the scientific community and finally, in the beginning of this century, a ISO/IEC standard was proposed. That proposal also brings two new challenges: i) to show that any proposed net that belongs to Petri Net class proved itself as satisfying the requirements of the standard; ii) to enter the discussions of the semantics of extensions and also provide practical and unified system environments that can really support the design of large and complex systems. In this work, we present a proposal for the developing of an integrated modeling environment for the representation of discrete event systems using Petri Nets. This environment will use an underlying formalism framed within the rules defined recently by the ISO/IEC, in the standard 15909. The formalism to be used will be the GHENeSys net, which will have its definition extended using the definition of the Coloured PN (CPN) as a starting point in order to allow the representation of types within the net tokens. A testing prototype for this integrated modeling environment, result of the integration of several previous works of D-Lab members that were never implemented or integrated in a unique formalism, is presented. This prototype will be used in a case study in order to validate in practical way the new elements added to the definition of GHENeSys, to allow the modeling of systems using the elements of HLPNs.

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