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A service-oriented reconfigurable process monitoring system - enabling cyber physical systems

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Communication is an essential requirement for collaborative manufacturing systems. However the diversity of communication media and protocols in machine tools, automation equipment, and associated proprietary software, presents a challenge for enabling capable, extensible and re-configurable process monitoring systems. Additionally, as process control systems evolve from centralised hierarchical structures to decentralised heterarchical communities, enabling media and tools are required to provide interoperability between systems and subsystems. The focus of this research is to introduce a manufacturing decentralised process monitoring architecture that utilises a service-oriented architecture framework for network-wide dynamic data acquisition and distribution. The system design is created using a combination of service-oriented architecture topology and technical modelling. Service-oriented communication structure and capability is given particular focus, resulting in a comparative study of message structures and communication speeds. The resultant system is modular in structure, reconfigurable, network-distributable, interoperable, efficient, and meets real-time requirements.
Rocznik
Strony
116--129
Opis fizyczny
Bibliogr. 29 poz., tab., rys.
Twórcy
autor
  • Mechanical and Manufacturing Engineering Department, Trinity College Dublin, Dublin 2, Ireland
  • Mechanical and Manufacturing Engineering Department, Trinity College Dublin, Dublin 2, Ireland
Bibliografia
  • [1] MONOSTORI L., CSÁJI B.C., KÁDÁR B., PFEIFFER A., ILIE-ZUDOR E., KEMÉNY Z., SZATHMÁRI M.,. 2010, Towards adaptive and digital manufacturing, Annu. Rev. Control, 34/1, 118–128.
  • [2] ABELE E., LIEBECK T., WÖRN A., 2006, Measuring flexibility in investment decisions for manufacturing systems, CIRP Ann. - Manuf. Technol., 55/1, 433–436.
  • [3] ZAMBRANO REY G., PACH C., AISSANI N., BEKRAR A., BERGER T., TRENTESAUX D., 2013, The control of myopic behavior in semi-heterarchical production systems: A holonic framework, Eng. Appl. Artif. Intell., 26/2, 800–817.
  • [4] WESTKÄMPER E., 2007, Strategic development of factories under the influence of emergent technologies,” CIRP Ann. - Manuf. Technol., 56/1, 419–422.
  • [5] MORA D., TAISCH M., A. COLOMBO W., 2012, Towards an energy management system of systems: An industrial case study, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society, 5811–5816.
  • [6] CASSINA J., ALESSANDRO C., TAISCH M., 2009, Development of an extended product lifecycle management through service oriented architecture, Industrial Product-Service Systems, CIRP IPS2, Cranfield University, 118– 124.
  • [7] MENDES J.M., LEITÃO P.J., RESTIVO F.J., COLOMBO A.W., BEPPERLING A., 2008, Engineering of service oriented automation systems: a survey, Innovative Production Machines and Systems, Cardiff University, 33–38.
  • [8] JAMMES F., MENSCH A., SMIT H., 2007, Service-oriented device communications using the devices profile for Web services, in Advanced Information Networking and Applications Workshops, 2007, AINAW ’07. 21st International Conference on, 1, 947–955.
  • [9] CANDIDO G., JAMMES F., de OLIVEIRA J.B., COLOMBO A.W., 2010, SOA at device level in the industrial domain: Assessment of OPC UA and DPWS specifications, Industrial Informatics (INDIN), 8th IEEE International Conference on. 598–603.
  • [10] LEITÃO P., MENDES J.M., BEPPERLING A., CACHAPA D., COLOMBO A., RESTIVO F., 2012, Integration of virtual and real environments for engineering service-oriented manufacturing systems, J. Intell. Manuf., 23/6, 2551–2563.
  • [11] JAMMES F., BONY B., NAPPEY P., COLOMBO A.W., DELSING J., ELIASSON J., KYUSAKOV R., KARNOUSKOS S., STLUKA P., TILL M., 2012, Technologies for SOA-based distributed large scale process monitoring and control systems, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society, 5799–5804.
  • [12] KOREN Y., HEISEL U., JOVANE F., MORIWAKI T., PRITSCHOW G., ULSOY G., Van BRUSSEL H., 1999, Reconfigurable manufacturing systems, CIRP Ann. - Manuf. Technol., 48/2, 527–540.
  • [13] COLOMBO A.W., JAMMES F., SMIT H., HARRISON R., LASTRA J.L.M., DELAMER I.M., 2005, Serviceoriented architectures for collaborative automation, in Industrial Electronics Society, 2005, IECON 2005. 31st Annual Conference of IEEE, 2649–2659.
  • [14] NAGORNY K., COLOMBO A.W., FREIJO E., DELSING J., 2013, An engineering approach for industrial SoAbased systems of systems, Industrial Technology (ICIT), 2013 IEEE International Conference on, 1956–1961.
  • [15] BONY B., HARNISCHFEGER M., JAMMES F., 2011, Convergence of OPC UA and DPWS with a cross-domain data model, in Industrial Informatics (INDIN), 9th IEEE International Conference on, 187–192.
  • [16] TETI R., JEMIELNIAK K., O’DONNELL G., DORNFELD D., 2010, Advanced monitoring of machining operations, CIRP Ann. - Manuf. Technol., 59, 717–739.
  • [17] KARNOUSKOS S., COLOMBO A.W., BANGEMANN T., MANNINEN K,. CAMP R., TILLY M., STLUKA P., JAMMES F., DELSING J., ELIASSON J., 2012, A SOA-based architecture for empowering future collaborative cloud based industrial automation, in 38th Annual Conference of the IEEE Industrial Electronics Society (IECON), Montréal, Canada, 5770–5776.
  • [18] PIETRZAK P., LINDGREN P., MAKITAAVOLA H., 2012, Towards a lightweight CEP engine for embedded systems, IECON - 38th Annual Conference on IEEE Industrial Electronics Society. 5805–5810.
  • [19] DELSING J., ROSENQVIST F., CARLSSON O., COLOMBO A. W., BANGEMANN T., 2012, Migration of industrial process control systems into service oriented architecture, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society, 5786–5792.
  • [20] CÂNDIDO G., BARATA J., COLOMBO A.W., JAMMES F., 2009, SOA in reconfigurable supply chains: A research roadmap, Eng. Appl. Artif. Intell., 22/6, 939–949.
  • [21] SAVIO D., KARNOUSKOS S., WUWER D., BANGEMANN T., 2008, Dynamically optimized production planning using Cross-Layer SOA, Computer Software and Applications, COMPSAC, 32nd Annual IEEE International, 1361–1365.
  • [22] SPIESS P., KARNOUSKOS S., GUINARD D., SAVIO D., BAECKER O., SOUZA L., TRIFA V., 2009, SOABased integration of the Internet of things in enterprise services, Web Services,. ICWS, IEEE International Conference on, 968–975.
  • [23] GUINARD D., TRIFA V., SPIESS P., DOBER B., KARNOUSKOS S., 2009, Discovery and on-demand provisioning of Real-World Web Services, Web Services, ICWS, IEEE International Conference on, 583–590,
  • [24] KYUSAKOV R., ELIASSON J., DELSING J., 2011, Efficient structured data processing for web service enabled shop floor devices, Industrial Electronics (ISIE), IEEE International Symposium on, 1716–1721.
  • [25] JAMMES F., 2011, Real time device level Service-Oriented Architectures, Industrial Electronics (ISIE), IEEE International Symposium on, 1722–1726.
  • [26] KYUSAKOV R., MAKITAAVOLA H., DELSING J., ELIASSON J., 2011, Efficient XML interchange in factory automation systems, IECON - 37th Annual Conference on IEEE Industrial Electronics Society, 4478–4483.
  • [27] National-Instruments, “Network Variable Technical Overview”, 2009.
  • [28] National-Instruments, “Using the LabVIEW Shared Variable”, 2012.
  • [29] KARNOUSKOS S., SOMLEV V., 2013, Performance assessment of integration in the cloud of things via web services, Industrial Technology (ICIT), IEEE International Conference on, 1988–1993.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f04a05fe-86f8-4359-9d59-34ab38e5ffc2
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