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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.
Assessment of IS Integration Efforts to Implement the Internet of Production Reference Architecture
(2018)
As part of a collaborative network, manufacturing companies are required to be agile and accelerate their decision making. To do so, a high amount of data is available and needs to be utilized. To enable this from a company internal information system perspective, the Internet of Production (IoP) describes a future information system (IS) architecture. Core element of the IoP is a digital platform building the basis for a network of cognitive systems. To implement and continuously further develop the IoP, manufacturing companies need to make architecture-related decisions concerning the accessibility of data, the processing of the data as well as the visualization of the information. The goal of this research is the development of a decision-support methodology to make those decisions, taking under consideration the evaluated IS integration effort. Therefore, this paper describes the allocation of IS functions and identifies the effort drivers for the respective IS integration by analyzing the integration possibilities. Conclusively this approach will be validated in a case study.
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 evaluation of the maturity level of the participating companies has provided an initial insight into the degree of implementation and the upcoming challenges of Industrie 4.0 in Mexico. The assessment shows that Mexican companies have built the necessary foundation to start their digital transformation. Challenges now lie in establishing an integrated IT landscape that makes it possible to generate a digital shadow of the entire company. In order to leverage the potential of this technological development, it is necessary to work in parallel on an even more flexible organizational structure and an innovation-promoting Culture.
In order to strategically plan the digital transformation of a manufacturing company, a detailed analysis of the company's maturity level must be carried out. The basic dimensions of such an analysis were presented in the present paper. The Industrie 4.0 Maturity Index offers a framework that identifies approximately 50 individual capabilities required for the systematic implementation of Industrie 4.0 and groups them into the four dimensions discussed in this paper. Only an analysis of a company's key processes at this level of detail can form the basis for a sound investment decision and a roadmap that outlines the steps towards its digital transformation for the upcoming years.
Der Sondermaschinenbauer HAHN GROUP befindet sich auf internationalem Expansionskurs. Mit Unterstützung des FIR an der RWTH Aachen hat die HAHN GROUP nun ihren IT- und Digitalisierungsbereich, der aufgrund der Expansion eine Reorganisation benötigte, neu aufgestellt und damit eine internationale Standardisierung der internen Prozesse erreicht.
Ziel der Zusammenarbeit war die Schaffung flexibler und gleichzeitig standardisierter, standortunabhängiger IT-Strukturen.
Thanks to the challenges of the imminent energy turnaround, the power market faces a revolution regarding the energy distribution. In future, energy will not only be distributed from a limited number of large, centralized power plants but also from small, decentralized power generators, e.g. households. This also affects manufacturing companies, which are confronted with developing an energy management strategy. As those companies usually have not set high priorities on their energy management, there is a lack of a structured procedure to build an energy management strategy. Consequently, this creates the need for supporting methods to develop and implement an energy management strategy. This paper tackles the first step in the development of an energy management strategy. For this purpose, a target map is developed and possible use cases are systematized. The next steps of the implementation are presented using the example of load management.
Bedingt durch den Ausbau der dezentralen Energieversorgung steigen die Redispatch-Maßnahmen durch die Übertragungsnetzbetreiber zur Netzstabilisierung. Je nach Szenario werden in 2030 allerdings 62 - 82 % der Bruttostromnachfrage direkt in das Verteilnetz eingespeist, sodass die Verteilnetzbetreiber die Netzbilanz bereits auf NS- und MS-Ebene ausgleichen müssen. Eine Lösungskomponente dazu ist das Industrial Smart Grid; dazu sind tiefere Einblicke in die Produktionsplanung von Industrieunternehmen nötig, um das Netz proaktiv zu regeln. Die Grundlage für diese nötige Transparenz wird unternehmensintern durch die Etablierung von Energiemanagement und dazu nötigen Energieinformationssystemen geschaffen. Um eine zielgerichtete Systemauswahl für produzierende Unternehmen zu ermöglichen, ist ein grundlegender Funktionskatalog eines Energieinformationssystems zu erstellen. Dieses Paper beschreibt die Erstellung eines solchen Funktionskatalogs in Form eines übersichtlichen Funktionsbaums und einer exemplarischen Funktionsdarstellung in einem Use-Case-Diagramm.
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
Ziele des Energiemanagements von produzierenden Unternehmen können durch ein IT-gestütztes Energiemanagement erreicht werden. Zukunftsszenarien sagen grundlegende Änderungen im Strommarkt voraus – zusätzliche Herausforderungen an das Energiemanagement prod. Unternehmen entstehen. Zusätzliche Hebel zur Beeinflussung der Energiekosten müssten vom Energiemanagement produzierender Unternehmen berücksichtigt werden. Produzierende Unternehmen sollten sich von Anfang an die richtigen Fragen zur Ausrichtung ihres IT-gestützten Energiemanagements stellen. Produzierende Unternehmen benötigen eine klare Energiemanagementstrategie. Aus den Zielen der Energiemanagementstrategie lassen sich die benötigten Energiemanagementfunktionen ableiten. Aus den Energiemanagementfunktionen lassen sich die Anforderungen an die vorhandene IT-Landschaft ableiten. Vermutlich werden nicht alle Anforderungen erfüllt – es entsteht ein Anpassungsbedarf in der IT-Landschaft. Die nötigen Änderungen in der IT-Landschaft müssen analysiert und in einer IT-Entwicklungsroadmap geplant werden.