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Audi is making its production fit for the future with the smart factory. In this factory of the future, big data – the creation and intelligent connection of large volumes of data – will facilitate datadriven and thus highly flexible and highly efficient manufacturing. A method of production in which Audi might no longer build its cars on an assembly line but according to a radically new, disruptive concept is modular assembly. In addition to this major project, Audi is pursuing many other exciting projects for the production of the future – from the application of virtualreality glasses to metal 3D printing.
The complexity of automobile production is increasing. New market needs, customer expectations and the legislative framework are increasingly requiring innovative technologies and differing vehicle versions. This means that the fixed timing of the assembly line is becoming less efficient. The more the number of derivatives and variants grows, the more difficult it becomes to master high complexity and integrate new routines into the rigid, sequential process.
Audi intends to meet this challenge and to develop a completely new principle for it: modular assembly. With this method, small, separate workstations allow highly flexible working routines – in terms of both time and space. Between those workstations, driverless transport systems take over the transport of the car bodies as well as the parts required for production. A central computer precisely controls the driverless transport systems – it recognizes the needs of each individual station, thus ensuring a smooth workflow.
Audi assumes that modular assembly will result in 20 percent better productivity than the assembly lines of today. It is now being applied for test purposes at the engine plant in Gyr, Hungary, and application is planned in two further projects.
At present, the key principles of this innovative production system are being worked out and tested by “arculus” – a startup company established a few months ago.
The Technical Center for Production Assistance Systems.
The new driverless transport systems required for modular assembly are being created in Audi’s “Technology Development Production Assistance Systems” department. This small department has developed two types of driverless vehicle: One of them moves under control by a computer, the other moves autonomously on a defined route. Three onboard laser scanners allow the driverless transport systems to orient themselves and to recognize and avoid potentially critical situations. Audi developed the navigation software itself. It is based on automotive software and automotivesoftware development processes.
The main task of the Technical Center for Production Assistance Systems is to work on new production technologies in early stages of their development. In addition to driverless transport systems, it is also working on four other projects. They comprise safe cooperation between humans and machines when working in the same space, assembly tables with assistance functions and two innovative robots: a flexible gripper arm and a special lightweight robot.
The Audi Production Lab.
The Audi Production Lab, abbreviated as PLab, develops and supports innovative projects for the production process – often starting with the very first idea. The department currently has five permanent employees andhas already helped to bring innovations such as metal 3D printing, humanrobot cooperation, driverless transport systems and the use of augmented reality at Audi towards series application.
The projects currently running in the PLab include two bigdata projects. One of them focuses on the early recognition of mistakes in the placement of screws and bolts; the other examines the flow of components in the area of international logistics for the CKD plants (completely knocked down). Another major subject for the Audi Production Lab is data glasses. They can provide effective support for employees in production, for the planners and engineers in the factory of the future – with assisted reality, augmented reality and virtual reality.
Several future-oriented projects are running in Audi’s Toolmaking division. The structure of the new generation of press tools follows nature, with many parts made of aluminum and plastics. This reduces the weight of those tools, which until now has been up to 45 tons, by up to 20 percent and the energy required decreases by about ten percent. The result is enhanced precision in the forming of sheetmetal parts.
The press shop, where the tools are applied, uses the latest measuring technology. The goal is to develop a complete data chain for each sheetmetal part. The data chain already begins with the suppliers of steel and aluminum. This is another way in which Audi is enhancing its precision.