![]() ![]() As they walk down the steps to find a free place, they enter a space where they can actually see the faces of other students, connecting with them. Their eyes might wander over the treetops of the forest outside. Daylight floods through the huge triple-glazed windows. At H9, they enter a light-filled atrium at gallery level. When opening the door to H9, students enter however a space that is completely different from the other lecture halls in the building that have no daylight, where the lecturer is at the front of the class and one normally only see the back of fellow students. The foyer connects the new auditorium to eight other lecture halls. The main access to the new auditorium is from the large, introverted foyer on the first floor of the teaching block. The new auditorium is thus not only filled with light and air, but its design and materials also reflect the surrounding nature. Two other outstanding features that won over the jury are the filigree roof structure and the large glass façade opening the room to the forest. The new building has a relatively small footprint, as it cantilevers above the ground and rests on a compact concrete base. The firm already has extensive experience in the construction of timber and zero-energy homes, and came up with a design that forms a seamless bridge between the existing teaching block and adjacent forest. Banz + Riecks Architekten eventually won the contract, for a variety of reasons. The university thus put the project up for public tender. For that reason, the proprietor wanted to make sure that the new building fitted well into the natural environment and came with a sustainable concept. It can use the benefits of this special Industrie 4.0 sector (assistance systems for shop floor employees) and may demonstrate praxis-oriented simulations to seminar participants who will be able to explore and experience these benefits by themselves.With 350 seats, H9 is currently the largest auditorium of Bochum University of Applied Sciences and is located right beside a protected forest. Once the research project is finished, the Chair of Production Systems will have implemented different Industrie 4.0 scenarios within the LPS Learning Factory. Sharing the development of an assistance system with a service-based architecture has made huge sense and turned out a success. Within the research project, the close collaboration with the software specialist of imc, the German Research Center for Artificial Intelligence and Fraunhofer IAO has been very successful. What measures have been taken to achieve the solution? Intelligent assistance systems like the APPsist system are designed to support shop floor employees and thus to enable companies to flexibly appoint their employees, to optimize production figures (MTTR, downtimes, quality degrees etc.) and to fix times for on-the-job learning periods. ![]() It generally follows the principles of a microservice architecture. The functionalities are implemented by largely independent, dedicated services which are composed into a complete system. The APPsist project aims at developing a service-based software architecture. How can the Industrie 4.0 approach be described? Industrie 4.0 issues a huge challenge to the Chair of Production Systems to investigate new applications, to implement and validate them within the LPS Learning Factory and to incorporate Industrie 4.0 into the academic syllabus. What were the challenges to be solved and what specific benefits were achieved? ![]()
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