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Supply Chain Operation Modelling and Automation Using Untimed and Timed State Tree StructuresIzadian, Sina 28 November 2013 (has links)
We study the supervisory control of supply chain operation modelled by (timed) State Tree Structures (STS). We model each agent involved in a supply chain using holons. Three operational models, make-to-order, make-to-stock, and assemble-to-order are considered. A strong assumption on the original STS theory is weakened to allow events shared among agents to be located at different levels. A supervisor is synthesized for the example of a mattress supply chain with make-to-stock operation under certain specifications.
Moreover, a new version of the Timed STS framework is developed to allow events to have an upper time bound i.e. deadline. With Timed STS framework, more specifications requiring time measurement can be modeled and a supervisory control is synthesized for the timed model of a supply chain. For a nonempty supervisory synthesis result, the maximum time for the inventory periodic review rate, and the minimum cycle time for customer order satisfaction are achieved.
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Supply Chain Operation Modelling and Automation Using Untimed and Timed State Tree StructuresIzadian, Sina 28 November 2013 (has links)
We study the supervisory control of supply chain operation modelled by (timed) State Tree Structures (STS). We model each agent involved in a supply chain using holons. Three operational models, make-to-order, make-to-stock, and assemble-to-order are considered. A strong assumption on the original STS theory is weakened to allow events shared among agents to be located at different levels. A supervisor is synthesized for the example of a mattress supply chain with make-to-stock operation under certain specifications.
Moreover, a new version of the Timed STS framework is developed to allow events to have an upper time bound i.e. deadline. With Timed STS framework, more specifications requiring time measurement can be modeled and a supervisory control is synthesized for the timed model of a supply chain. For a nonempty supervisory synthesis result, the maximum time for the inventory periodic review rate, and the minimum cycle time for customer order satisfaction are achieved.
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Workflow Modeling Using Finite AutomataKhemuka, Atul Ravi 07 November 2003 (has links)
A Workflow is an automation of a business process. In general, it consists of processes and activities, which are represented by well-defined tasks. These include 'Office Automation,' 'Health Care' and service-oriented processes such as 'Online Reservations,' 'Online Bookstores' and 'Insurance Claims,' etc. The entities that execute these tasks are humans, application programs or database management systems. These tasks are related and dependent on one another based on business policies and rules.
With rapid increases in application domains that use workflow management systems, there is a need for a framework that can be used to implement these applications. In particular, it is essential to provide a formal technique for defining a problem that can be used by various workflow software product developers.
In this work, a formal framework based on finite state automata that facilitate modeling and analysis of workflows is presented. The workflow and its specifications are modeled separately as finite state automata models. We provide a general framework for specifying control flow dependencies in the context of supervisory control theory. We also identify several properties of supervisory control theory and demonstrate their use for conducting the analysis of the workflows.
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Workflow modeling using finite automata [electronic resource] / by Atul Ravi Khemuka.Khemuka, Atul Ravi. January 2003 (has links)
Title from PDF of title page. / Document formatted into pages; contains 99 pages. / Thesis (M.S.I.E.)--University of South Florida, 2003. / Includes bibliographical references. / Text (Electronic thesis) in PDF format. / ABSTRACT: A Workflow is an automation of a business process. In general, it consists of processes and activities, which are represented by well-defined tasks. These include 'Office Automation,' 'Health Care' and service-oriented processes such as 'Online Reservations,' 'Online Bookstores' and 'Insurance Claims,' etc. The entities that execute these tasks are humans, application programs or database management systems. These tasks are related and dependent on one another based on business policies and rules. With rapid increases in application domains that use workflow management systems, there is a need for a framework that can be used to implement these applications. In particular, it is essential to provide a formal technique for defining a problem that can be used by various workflow software product developers. In this work, a formal framework based on finite state automata that facilitate modeling and analysis of workflows is presented. / ABSTRACT: The workflow and its specifications are modeled separately as finite state automata models. We provide a general framework for specifying control flow dependencies in the context of supervisory control theory. We also identify several properties of supervisory control theory and demonstrate their use for conducting the analysis of the workflows. / System requirements: World Wide Web browser and PDF reader. / Mode of access: World Wide Web.
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Automatic Generation of PLC Code Based on Net Condition Event SystemsSandberg, Natalia 03 March 2008 (has links)
An important consideration in discrete event dynamic systems control theory is the selection of a suitable modeling formalism that can capture the complex characteristics of the system and the capability to automatically synthesize a controller based on the system model. Net condition event systems are well suited for modeling complex discrete event dynamic systems owing to their input and output structure, which effectively captures the behavior of the physical devices to be monitored and/or controlled. To date, net condition event systems control models have not been extensively applied to highly automated manufacturing systems and there are few guidelines on how to automatically generate Programmable Logic Controller programming languages from net condition event systems models. This research automatically converted net condition event systems control models into Programmable Logic Controller programming language and evaluated the applicability of the proposed methodology in highly automated manufacturing systems using HAS-200 as a test bed.
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Implementação de controle supervisório em CLPs usando linguagem de alto nível / Implementation of supervisory control in PLCs using high-level languageAlmeida, Suzana Ribas de 15 February 2012 (has links)
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Previous issue date: 2012-02-15 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Nowadays the competition between companies is increasing. In a production system, efficiency, speed and flexibility are important means for cost reductions. The complexity of automation systems has been increasing, which makes necessary the implementation of more efficient control programs, free of errors and easy to maintain. However, in most practical applications the solution of these problems is dependent on designer's experience and doesn t follow a formal methodology, which results in programs with errors and difficulties to understand and maintain, since only the designer understands the adopted solutions. The Supervisory Control Theory (SCT) is a method extensively researched in academic circles for the synthesis of control logic of automated systems. It allows control problems to be solved in a formal way, ensuring a minimally restrictive and no blocking solution that meets the control specifications. However, this theory is not widely used in industrial environments yet, once the methods for implementation of supervisors obtained by TCS are still deficient. Thus, the intention of this Dissertation consists of showing a methodology for implementation of supervisory control in Programmable Logic Controllers (PLCs). In this work, the synthesis of supervisors is made in accordance to local modular approach, which brings the benefits of a formal methodology and allows exploring the modularity of the plant and the control specifications. The implementation is based on an architecture structured in three levels: supervisor, interface and system to be controlled. For the implementation in CLP three different programming languages are applied: the high-level languages Sequential Function Charts (SFC) and Structured Text and the low-level Ladder Diagram language in some parts. The development of the methodology was based on two works: a doctoral thesis by Vieira (2007) and master thesis by Cruz (2011) and brought together the advantages presented in each one of these. To compare the proposed methodology and the two mentioned methods, several tests were made on a manufacturing cell available at PUCPR and simulations on a PLC and computer as well. The results show that the use of the methodology proposed in this work makes possible to implement PLC programs that are able to treat all non-controllable events occurred in the system to be controlled and treat one controllable event by each control cell in the same scan cycle. Furthermore, the use of high-level languages results in a program of easier interpretation and maintenance, also enabling reutilization of codes. In this work some problems related to CLPs implementations are also showed and proposals for solving them are presented, as properties as well that, if accepted, ensure that the problem does not occur. / Hoje em dia a competitividade entre as empresas está cada vez maior. Em um sistema de produção, a eficácia, a velocidade e a flexibilidade são importantes, pois significam redução de custos. Os sistemas de automação atuais estão cada vez mais complexos, justificando a necessidade de programas de controle mais eficientes, sem erros e de fácil manutenção. Entretanto, na maioria das aplicações práticas a solução destes problemas é feita com base na experiência do projetista, não seguindo uma metodologia formal, o que resulta em programas com erros e de difícil entendimento e manutenção, uma vez que só o projetista entende perfeitamente as soluções adotadas. A Teoria de Controle Supervisório (TCS) é um método para a síntese da lógica de controle de sistemas automatizados. Ela permite que problemas de controle sejam solucionados de modo formal, garantindo uma solução minimamente restritiva e não bloqueante e que atenda às especificações de controle. Entretanto, esta teoria ainda não é amplamente adotada em ambientes industriais, sendo a carência de métodos de implementação dos supervisores obtidos via TCS um elemento que contribui para que isso aconteça. Assim, esta dissertação se propõe a apresentar uma metodologia de implementação de controle supervisório em Controladores Lógicos Programáveis (CLPs). Neste trabalho, a síntese de supervisores é feita de acordo com a abordagem modular local, que traz os benefícios de uma metodologia formal e ainda permite explorar a modularidade da planta e das especificações de controle. A implementação é baseada numa arquitetura estruturada em três níveis: supervisor, interface e sistema a ser controlado. Para a implementação em CLP são empregadas três linguagens distintas de programação, as linguagens de alto nível Sequential Function Charts (SFC) e Structured Text, bem como a linguagem Ladder Diagram em algumas partes. O desenvolvimento da metodologia foi baseado em dois trabalhos: a tese de doutorado de Vieira (2007) e a dissertação de mestrado de Cruz (2011) e permitiu reunir as vantagens apresentadas em cada um destes. Para comparação entre a metodologia proposta e as duas metodologias citadas, foram feitos diversos testes em uma célula de manufatura existente na PUCPR, bem como simulações em CLP e em computador. Os resultados mostram que a metodologia proposta neste trabalho permite a implementação de programas em CLP que, num mesmo ciclo de varredura, são capazes de tratar todos os eventos não controláveis ocorridos na planta e ainda um evento controlável por célula de controle. Além
disso, o uso de linguagens de alto nível resulta em um programa de mais fácil interpretação e manutenção, possibilitando ainda o reaproveitamento de códigos. Nesta dissertação também são abordados alguns problemas de implementação da estrutura de controle supervisório em CLPs, apresentando-se propostas para solucioná-los, bem como propriedades que, se atendidas, garantem que o problema não ocorra.
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Um método para projeto de sistemas embarcados baseado no controle supervisório modular local / Embedded system design Method based on local modular supervisory controlPinotti, Alexandre Junkes 11 December 2012 (has links)
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Previous issue date: 2012-12-11 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This work presents a method for embedded systems design based on the Supervisory Control Theory for Discrete-Event Systems. The method is composed of steps comprising the specification
phase until the approval of the control system. The conception phase is based on the local modular approach for the synthesis of minimally restrictive supervisors that constrains the plant behavior by disabling controllable events and are nonblocking with respect to the set of marked states. The method also includes an implementation architecture for the supervisory control applied to microcontrollers to solve problems such as causality, choice and inexact synchronization. An interface concentrates all controllable and uncontrollable events generation. It deals with the choice problem when reduced supervisors are implemented, randomly choosing one controllable event among the possible ones. This dissertation also presents a tool developed for the automatic code generation of the proposed implementation structure. The main module code is generated to be independent of the number of supervisors and plant models, that is, is the same for any control application. The tool is used to obtain the control applied to a case study and also for the temperature control of a commercial refrigerator. The control system has been validated using the same tools applied for the validation of household appliances at Whirlpool Corporation / Neste trabalho é proposto um método de projeto para sistemas embarcados concebido com base na Teoria de Controle Supervisório de Sistemas a Eventos Discretos. O método é composto por etapas que vão desde a especificação até a aprovação do sistema de controle. A etapa de concepção do método utiliza da abordagem modular local para síntese de supervisores minimamente restritivos que limitam o comportamento da planta através da desabilitação de eventos controláveis e são não bloqueantes em relação ao conjunto de estados marcados. O método ainda inclui uma arquitetura de implementação do controle supervisório direcionada para microcontroladores, visando solucionar os problemas da causalidade, escolha e sincronização inexata. Uma interface é concebida para concentrar a geração de eventos controláveis e não controláveis. Apresenta-se uma solução para o problema da escolha quando são implementados supervisores reduzidos sendo tal escolha realizada de modo online definindo um evento controlável, entre os possíveis, de forma aleatória. Apresenta-se uma ferramenta desenvolvida para a geração de código baseada na estrutura de implementação proposta. O código do módulo principal é gerado de forma a ser independente do número de supervisores e modelos de planta envolvidos, sendo o mesmo para qualquer aplicação de controle. Utiliza-se a ferramenta para obtenção do código da lógica de controle em um estudo de caso e para a regulação de temperatura em um refrigerador comercial. A validação do controle é realizada utilizando-se de ferramentas aplicadas à validação de eletrodomésticos da linha branca na Whirlpool Eletrodomésticos.
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