Beitrag in Buch INBOOK-2017-04

Bibliograph.
Daten
Kassner, Laura; Gröger, Christoph; Königsberger, Jan; Hoos, Eva; Kiefer, Cornelia; Weber, Christian; Silcher, Stefan; Mitschang, Bernhard: The Stuttgart IT Architecture for Manufacturing.
In: Hammoudi, Slimane (Hrsg); Maciaszek, Leszek A. (Hrsg); Missikoff, Michele M. (Hrsg); Camp, Olivier (Hrsg); Cordeiro, José (Hrsg): Enterprise Information Systems: 18th International Conference, ICEIS 2016, Rome, Italy, April 25--28, 2016, Revised Selected Papers.
Universität Stuttgart, Fakultät Informatik, Elektrotechnik und Informationstechnik.
Lecture Notes in Business Information Processing; 291, S. 53-80, englisch.
Springer International Publishing, 29. Juni 2017.
ISBN: 978-3-319-62386-3; DOI: 10.1007/978-3-319-62386-3_3.
Beitrag in Buch.
CR-Klassif.H.4.0 (Information Systems Applications General)
D.2.12 (Software Engineering Interoperability)
J.2 (Physical Sciences and Engineering)
Kurzfassung

The global conditions for manufacturing are rapidly changing towards shorter product life cycles, more complexity and more turbulence. The manufacturing industry must meet the demands of this shifting environment and the increased global competition by ensuring high product quality, continuous improvement of processes and increasingly flexible organization. Technological developments towards smart manufacturing create big industrial data which needs to be leveraged for competitive advantages. We present a novel IT architecture for data-driven manufacturing, the Stuttgart IT Architecture for Manufacturing (SITAM). It addresses the weaknesses of traditional manufacturing IT by providing IT systems integration, holistic data analytics and mobile information provisioning. The SITAM surpasses competing reference architectures for smart manufacturing because it has a strong focus on analytics and mobile integration of human workers into the smart production environment and because it includes concrete recommendations for technologies to implement it, thus filling a granularity gap between conceptual and case-based architectures. To illustrate the benefits of the SITAM’s prototypical implementation, we present an application scenario for value-added services in the automotive industry.

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CopyrightSpringer International Publishing AG 2017
Abteilung(en)Universität Stuttgart, Institut für Parallele und Verteilte Systeme, Anwendersoftware
Projekt(e)GSaME-NFG
Eingabedatum6. Juli 2017
   Publ. Abteilung   Publ. Institut   Publ. Informatik