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Konzepte und technologische Möglichkeiten, zusammengefasst unter dem Begriff „Industrie A.=“, ermöglichen es produzierenden Unternehmen, zu einer datenbasiert lernenden Organisation zu werden. Grundvoraussetzung dazu ist eine entsprechende IoT-Architektur. In diesem Beitrag wird ein Verfahren vorgestellt, dass die systematische Integration von Funktionen eines Energieinformationssystems in eine IoTArchitektur, dem Internet of Production, erläutert.
The shift towards a decentralized electricity supply based on renewable energy sources requires constant communication between the entities in the electric grid. To satisfy this communication need, energy market players have to select suitable communication technologies for their use cases. Conventionally, these decisions are made on a case-by-case, non-systematic basis. This paper proposes a technology configurator, which is a systematic, solution neutral approach for energy market players to select the most suitable communication technology for their communication use case. The developed methodology consists of eight steps, in an interaction between a user and a system, leading to a prioritized list of technology recommendations for the given use case. In conclusion, the proposed approach presents energy market players with a systematic way to select the best suitable communication technology to connect their system to the smart grid.
Industrie 4.0 is hitting the market. The e.GO Life – an electric car for the city – is developed in under three years and only € 30M investment
RWTH Campus pairs research and industry partners to pursue innovative ideas and yield cutting-edge products and services to face next-level digitization.
Digital, agile businesses outperform traditional businesses because of lower latencies in the entire reaction chain
acatech Industrie 4.0 Maturity Index: Helping established companies to build the development path to Industrie 4.0
The Maturity Index is offered to the Plattform Industrie 4.0 for transferring the approach to industry and defining Industrie 4.0 performance levels.
An open infrastructure allows testing of new innovative possibilities for the manufacturing industry Industrie 4.0 is hitting the market. The e.GO Life - an electric car for the city - is developed in under three years and only € 50M investment.
Digital shadow enables fast adaption of products and production.
Digital, agile businesses outperform traditional businesses because of lower latencies in the entire reaction chain. The capability of using data and generate knowledge will different digital champions from losers.
The goal of Industrie 4.0 is a learning agile company;a mere technology driven approach is not sufficient.
A successful implementation of Industrie 4.0 in manufacturing companies requires a holistic transformation approach.
There are many reasons why the shift towards a learning, agile company fails.
For a successful implementation, the entire company structure has to be considered. A stepwise approach is required to build the agile enterprise - smart use of data is the critical success factor.
Company development within the structuring forcesis based on an Industrie 4.0 development path.
The four structuring forces illustrate the fundamental Industrie 4.0 development and are captured by key questions.
The Maturity Index is developed by renowned partners from industry and research Overview on strategic goals and derived projects.
The digitalization of manufacturing processes is expected to lead to a growing interconnection of production sites, as well as machines, tools and work pieces. In the course of this development, new use-cases arise which have challenging requirements from a communication technology point of view. In this paper we propose a communication network architecture for Industry 4.0 applications, which combines new 5G and non-cellular wireless network technologies with existing (wired) fieldbus technologies on the shop floor. This architecture includes the possibility to use private and public mobile networks together with local networking technologies to achieve a flexible setup that addresses many different industrial use cases. It is embedded into the Industrial Internet Reference Architecture and the RAMI4.0 reference architecture. The paper shows how the advancements introduced around the new 5G mobile technology can fulfill a wide range of industry requirements and thus enable new Industry 4.0 applications. Since 5G standardization is still ongoing, the proposed architecture is in a first step mainly focusing on new advanced features in the core network, but will be developed further later.
Im "Data Quality Center" widmen sich Experten und Forscher der Hochschule Heilbronn, des FIR und des Trovarit Competence Centers Datenmanagement gemeinsam der Frage, mit welchen Werkzeugen und Methoden Unternehmen effizient die Qualität ihrer Stammdaten messen und verbessern können. Erstes Ziel ist die Entwicklung einer Methodik und Toolchain für das betriebliche Stammdatenmanagement zur Evaluierung und Sicherung der Stammdatenqualität. Der Beitrag liefert erste Ergebnisse sowie eine Marktübersicht zu MDM-Lösungen. Außerdem wird die DQC-Methodik zur Bewertung der Stammdatenqualität im Unternehmen beschrieben.