Bannat, A.; Bautze, T.; Beetz, M.; Blume, J.; Diepold, K.; Ertelt, C.; Geiger, F.; Gmeiner, T.; Gyger, T.; Knoll, A.; Lau, C.; Lenz, C.; Ostgathe, M.; Reinhart, G.; Roesel, W.; Ruehr, T.; Schuboe, A.; Shea, K.; Stork genannt Wersborg, I.; Stork, S.; Tekouo, W.; Wallhoff, F.; Wiesbeck, M.; Zaeh, M. F.
Artificial Cognition in Production Systems
Today's manufacturing and assembly systems have to be flexible to adapt quickly to an increasing number and variety of products, and changing market volumes. To manage these dynamics, several production concepts (e.g., flexible, reconfigurable, changeable or autonomous manufacturing and assembly systems) were proposed and partly realized in the past years.
Automation Science and Engineering, IEEE Transactions on