The functionality of remote controlling in ubiquitous manufacturing systems demonstrator for I*PROMS "efm" showcase
By: PUTNIK, Goran D.
Contributor(s): SHAH, Vaibhav | CASTRO, Hélio | CRUZ-CUNHA, Maria Manuela.
Material type: ArticlePublisher: [Barcelos] : Instituto Politécnico do Cávado e do Ave, Feb. 2011Subject(s): Gestão de TI | Tecnologia da Informação | Produção | Administração de ProduçãoTékhne : Revista de Estudos Politécnicos = Polytechnical Studies Review 9, 15, p. 169-189Abstract: Ubiquitous Manufacturing System (UMS) is an emerging manufacturing paradigm oriented towards eliminating the time and space barries for operation of traditional manufaturing systems. UMS is based on, and represents an extension of Distributed (Global) and Virtual Manufacturing (Production) Systems and Enterprises using the concept of Ubiquitous Computing Systems. In this paper, the authors are discussing about architecture and functionalities of geographically Distributed (Remote) Control of machine tools and manufacturing cells, as a component of the complete UMS architecture under implementation, consisting of an international network of manufacturing cells, called UMS cells, installed in laboratories of the FP6 Natwork-of-Excellence I*PROMS network partners. The UMS architecture is being developed as part of the "efm" (European Future Manufacturing) showcase initiative under the I*PROMS Project. The objective of the paper is to show the setup and functionality of the "remote controlling" aspect of the networkUbiquitous Manufacturing System (UMS) is an emerging manufacturing paradigm oriented towards eliminating the time and space barries for operation of traditional manufaturing systems. UMS is based on, and represents an extension of Distributed (Global) and Virtual Manufacturing (Production) Systems and Enterprises using the concept of Ubiquitous Computing Systems. In this paper, the authors are discussing about architecture and functionalities of geographically Distributed (Remote) Control of machine tools and manufacturing cells, as a component of the complete UMS architecture under implementation, consisting of an international network of manufacturing cells, called UMS cells, installed in laboratories of the FP6 Natwork-of-Excellence I*PROMS network partners. The UMS architecture is being developed as part of the "efm" (European Future Manufacturing) showcase initiative under the I*PROMS Project. The objective of the paper is to show the setup and functionality of the "remote controlling" aspect of the network
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