Artificial intelligence and human-machine cooperation are the major topics of the automation of the future. At the Festo TechTalk held at the end of February, four experts discussed the potential and opportunities offered by artificial intelligence and explained how Festo is positioning itself within this context.
How does anticipatory machine maintenance work? How is artificial intelligence advancing automation? And how can Germany as an industrial location benefit from these activities?
Will automation become autonomous thanks to artificial intelligence? Dionysios Satikidis, a software engineer and expert in artificial intelligence used the example of newborn babies to explain various learning methods in artificial intelligence that can ultimately lead to autonomy. Babies first of all perceive objects, and this enables them to recognise differences—which is exactly what algorithms can do in machine learning, for example when recognising anomalies or clusters. When systems also remember what they perceive, this is known as deep learning. They can then recognise objects or understand speech. If this memory is connected with a task and practised, one then speaks of reinforcement learning. In this case, it involves learning a skill. “Once artificial intelligence finally becomes capable of transferring acquired knowledge to unknown tasks, we will have arrived at transfer learning, which in the final stage can lead to autonomous automation,” said the expert with a view to the future.
BionicSoftHand—A Pneumatic Gripper With AI Based On The Human Model
Dr Elias Knubben, the Head of Corporate Research and Innovation, showed an example of how Festo can use reinforcement learning for automation engineering by presenting the BionicSoftHand, the new Future Concept from the field of bionics. The natural model for this gripper is the human hand. The BionicSoftHand is pneumatically operated so that it can interact safely and directly with people. Its fingers consist of flexible bellows structures with air chambers and other soft materials. This makes it light, flexible, adaptable and sensitive, yet capable of exerting strong forces. By means of artificial intelligence, the bionic robot hand learns to independently solve gripping and turning tasks similar to the human hand in interaction with the brain.
Intelligent Process Monitoring
According to Tanja Krüger, Managing Director & Owner of Resolto Informatik GmbH, artificial intelligence has been made usable to industry. Intelligent monitoring software SCRAITEC analyses and interprets data, and detects and reports anomalies, all in real time. The permanent data analysis also enables the system to constantly learn and extend its basis of knowledge, so that intelligent process monitoring is possible. The software works for the detection of faulty batteries. “The batteries are lifted by a handling gantry. SCRAITEC monitors the engine currents and positional values of the axis. If anomalies occur, for example if the handling unit grasps the wrong battery format, a report is issued,” said Tanja Krüger.
AI Will Enormously Influence The Product Portfolio Of Festo
“The acquisition and monitoring of data by the intelligent software solution can either be effected at the component, as with the handling of batteries, or be carried out via the IoT gateway CPX-IoT in the Festo cloud. It connects components and modules from the field level, such as handling systems or electrical drives, via its OPC UA interface to the Festo Cloud,” added Dr Frank Melzer, Member of the Management Board Product and Technology Management. “The topics of analytics and artificial intelligence will enormously influence our product portfolio in future. For simple analysis tasks, AI algorithms can run directly on the component in real time; we then speak of field level or on-edge. If I want to analyse the data flows of an entire machinery unit or even a production hall, the processing power within the component will of course not be sufficient. The servers for the more complex calculations can be integrated into the production network. The advantage: my data remain within my protected infrastructure and are not communicated via the Internet. It is only in the processing of very large volumes of data with complex analyses and reference series that communication with the cloud is necessary and appropriate.”
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