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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
Systematization models for taylor-made sensor system applications and sensor data fit in production
(2015)
Industrial digitalization to realize smart factories is driven by an informatory base of high-resolution data provided by sensor systems on the shop-floor level. The challenge of technical availability of fitting measurement solutions nowadays turns in a struggle of finding the optimal solution for a specific task in an ever-growing sensor market. This paper analyzes and specifies necessary models to systematically derive and describe organizational, technical and informatory requirements for sensor system applications increasing the technological fit for faster integration and lower misinvestment rates.
General classification of mobile communication technologies like 5G for the production and logistic
(2018)
5G as a new technology promises many potentials that come to bear in different use cases according to the technical, promised improvements of loads, bandwidth and network subscribers. The presentation presents a classification of applications for the area of production and logistics in comparison to the technical requirements.
Technologien und Know-how zur klimafreundlichen Energieversorgung „Made in Germany“ sind weltweit gefragt. Immer mehr Regierungen und Unternehmen erkennen: Erneuerbare Energien und Energieträger sowie Energieeffizienz und intelligente Systemlösungen, verringern die Abhängigkeit von fossilen Ressourcen, leisten einen Beitrag zum Klimaschutz und helfen dabei, Kosten zu senken und damit die Wettbewerbsfähigkeit zu stärken.
Mit dem Ziel, deutsche Technologien und Know-how weltweit zu positionieren, unterstützt die Exportinitiative Energie des BMWK, Anbieter von klimafreundlichen Energielösungen bei der Erschließung von Auslandsmärkten. Dies trägt zur Stärkung des Wirtschaftsstandorts Deutschland und der Erreichung globaler Klimaschutzziele bei. Dieser Vortrag behandelt das Potential von künstlicher Intelligenz in Verteilnetzen.
Technologies and know-how for climate-friendly energy supply “Made in Germany” are in demand worldwide. More and more governments and companies are realizing: Renewable energies, energy efficiency and intelligent system solutions reduce the dependency on fossil resources, make a contribution to climate protection and help to cut costs and thus strengthen competitiveness. With the aim of positioning German technologies and know-how worldwide, the Energy Solutions Made In Germany of the BMWK supports the provider of climate-friendly energy solutions in opening up foreign markets. This helps to strengthen Germany as a business location and to achieve global climate protection goals. This presenatation gave an insight into the potential of artificial intelligence in distribution grids.
Crises pose significant short and long-term threats to companies. The research project PAIRS aims to strengthen the resilience of actors in the supply-chain, en-ergy, and healthcare sectors in crisis situations. The basis for this is the newly created potential in data exchange, which is leveraged by combining internal with external (company-)data, e.g. in the GAIA-X network. AI is then the key to iden-tifying the time of the crisis and deriving appropriate actions to deal with it. Therefore, crisis scenarios are generated, and risks are assessed. In this paper, the project fundamentals are discussed. This includes the development of a project definition of the term "crisis", which is based on literature research of various scientific disciplines (e.g. economics or political science), as well as interviews with professional and academic experts from different fields. Moreover, a specif-ic example from the supply-chain domain is introduced to illustrate the process of requirement identification.
Industrial 5G applications
(2019)
In der Demonstrationsfabrik werden 3 exemplarische 5G-Anwendungsfälle entlang der gesamten Wertschöpfungskette eines produzierenden Unternehmens vorgestellt. Das Future Warehouse ermöglicht neben der Datenerfassung und -verfolgung in Echtzeit auch die einfache Nachrüstung von Technologie-Upgrades. 5G-Intralogistik zeichnet sich durch autonome Antriebssysteme aus, die durch niedrige Latenzen und Netzwerk-Slicing in Echtzeit steuerbar und zuverlässig sind. Die 5G-Montage umfasst die vollständige drahtlose Vernetzung von Montagelinien und ermöglicht eine kontinuierliche und kurzzyklische Optimierung des Montageprozesses.
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.