Uma abordagem metodológica para o desenvolvimento de sistemas automatizados e integrados de manufatura
A methodological approach to automated and integrated manufacturing systems development
Paula, Marco Antonio B. de; Santos, Eduardo Alves P.
http://dx.doi.org/10.1590/S0103-65132008000100002
Prod, vol.18, n1, p.8-25, 2008
Resumo
Este trabalho apresenta uma metodologia de projeto aplicada a sistemas automatizados e integrados de manufatura. A metodologia consiste em um desenvolvimento cíclico de três etapas – modelagem, síntese e implementação – até o atendimento da aplicação demandada para o sistema real, resultando no projeto do sistema automatizado integrado. Esta forma de desenvolvimento permite uma revisão contínua dos resultados obtidos em cada etapa. Para testar e validar a metodologia, é apresentado um exemplo de re-projeto de um protótipo de sistema de manufatura em função da necessidade de inserção de um novo produto.
Palavras-chave
Automação industrial, manufatura integrada, metodologia de projeto, integração de sistemas, tecnologias de manufatura
Abstract
This paper presents a methodology of project applied to automated and integrated manufacturing systems. The methodology consists of a cyclic three stages development – modeling, synthesis and implementation – till the accomplishment of the application required by the real system, resulting in the project of the automated and integrated system. This kind of development allows a continuous revision of the results of each stage. To submit to a test and to validate the methodology, it is given an example of a re-project of a prototype of a manufacturing system at the time of the introduction of a new product on the market.
Keywords
Industrial automation, integrated manufacturing, design methodology, systems integration, manufacturing technologies
References
AKESSON, K. Methods and Tools in Supervisory Control Theory. PhD Thesis, Chalmers University of Technology, Sweden, 2002.
BALEMI, S.; HOFFMANN, G. J.; GYUGYI, P. et al. Supervisory control of a rapid thermal multiprocessor. IEEE Transactions on Automatic Control, v. 38, n. 7, p. 1040-1059, 1993.
CARROL, J.; LONG, D. Theory of Finite Automata. Prentice-Hall International Editions, 1989.
CASSANDRAS, C. G.; LAFORTUNE S. Introduction to Discrete Event Systems, Kluwer Academic Publishers, 1999.
CHANDRA, V.; ORUGANTI, B.; KUMAR, R. UKDES: A graphical software tool for the design, analysis & control of discrete event systems, clue.eng.iastate.edu/~rkumar/PUBS/ukdes.ps. 17:34, 2002.
CURY, J. E. R. Teoria de Controle Supervisório de Sistemas a Eventos Discretos. V Simpósio Brasileiro de Automação Inteligente, Gramado, 2001.
ERBE, H.–H. Low Cost Intelligent Automation in Manufacturing. Proceedings of the 15th Triennial IFAC World Congress, Barcelona, Spain, 2002.
FABIAN, M.; HELLGREN A. Desco – a Tool for Education and Control of Discrete Event Systems. Kluwer Academic Publishers, 2000.
GOUVÊA DA COSTA, S.; PLATTS, K.; FLEURY, A. Advanced Manufacturing Technology: defining the object and positioning it as an element of manufacturing strategy. Proceedings of VI International Conference on Industrial Engineering and Operations Management, São Paulo, 2000.
GROOVER, M. Automation, Production Systems, and Computer-Integrated Manufacturing, 2. ed. New Jersey: Prentice-Hall, 2001.
HOLLOWAY, L. E.; KROGH, B. H.; GIUA, A. A survey of Petri nets methods for controlled discrete event systems, Discrete Event Dynamic Systems: Theory and Applications, 7, p. 151-190. Boston: Kluwer Academic Publishers, 1997.
IEC 61131-3. International Electrotechnical Commission, Programmable Controllers. Programming Languages, 1998.
IEC 848. International Eletrotechnical Comission. Preparation of function charts for control systems, Switzerland, 1988.
LUCAS. Distributed Work Cell Controller and Teleservice. User Manual, Dortmund, 1999.
MOORE, P. R.; PU, J.; NG, H.C. Virtual engineering: an integrated approach to agile manufacturing machinery design and control. Mechatronics, 13, p. 1105–1121, 2003.
MORAES, C. C.; CASTRUCCI, P. L. Engenharia de Automação Industrial. Livros Técnicos e Científicos (LTC), 2001.
PROFIBUS.Disponível em:
QUEIROZ, M. H.; CURY, J. E. R. Controle Supervisório Modular de Sistemas de Manufatura. Revista Controle & Automação, SBA, 13, p.115-125, 2002a.
QUEIROZ, M. H.; CURY, J. E. R. Synthesis and implementation of local modular supervisory control for a manufacturing cell, Discrete Event Systems: Analysis and Control, Kluwer Academic Publishers, p. 103-110, 2002b.
RAMADGE, P.J.; WONHAM, W. M. The control of discrete event systems, Proceedings of IEEE, Special Issue on Discrete Event Dynamic Systems, 77, p. 81-98, 1989.
RAYMOND, D.; WOOD, D. G. Engineering automata in C++: Version 2.5
SANTOS, E. A. P. Contribuições ao projeto conceitual de sistemas de manipulação e montagem automatizados. Tese de Doutorado (Engenharia Elétrica), Universidade Federal de Santa Catarina, 2003.
VAZ, A. F.; WONHAM, W. M. On supervisor reduction in discrete-event systems. International Journal of Control, v. 44, n. 2, p. 475-491, 1996.
WONHAM, W. M. Notes on control of discrete event systems. Course notes for ECE 1636F/1637S. Dept. of Electrical and Computer Engineering, University of Toronto, Canada, 1999.
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