A beacon for automated machine learning in the future, the ambitious project has focused on developing continuous learning models that deliver higher moulding quality in shorter cycle times, around the clock. To accomplish this overarching strategy and facilitate autonomous reactions to individual production situations, the research team has captured valuable deep learning from different machinery manufacturers.
An R&D program instigated in the mid-2020s, developments accelerated at speed in 2021 with a series of machine learning tests facilitated by the Fraunhofer spin-off plus10 and the SKZ plastics centre. Labelled the DarWIN research project, this AI program focused specifically on gathering detailed and transferrable processing behaviours from multiple models of injection moulding machines using high-frequency machine data.
Through the transferability of pre-trained machine learning models, the DarWIN project proves that individual machines from different manufacturers have the capability to learn from each other. In reality, this now means that individual behavioural models of a specific machine don’t have to be completely re-learned every time. Instead they can be adapted to the machine and product application through minor automated adjustments.
This ability to adapt to the prevailing conditions, for example raw material characteristics and ambient conditions, provides robust evidence that processing patterns and behavioural models are transferable to machines of similar size and technology, regardless of the manufacturer.
AI tests performed on Sumitomo (SHI) Demag machines
Most recently, plus10 and the SKZ performed a series of thorough AI pilot tests on Sumitomo (SHI) Demag machines. Thanks to the high-frequency machine connectivity, Sumitomo (SHI) Demag machines provide the ideal platform to put the plus10 algorithms through their paces.
Offering real-time communication in the millisecond range, the company’s advanced machine controllers are ‘AI-ready’. This universally compatible digital interface allows for seamless communication across all machinery assets. Additionally, it facilitates easy implementation of continuous learning AI-based optimisation tools. Accomplishing optimal productivity at all times and allowing for further advances in interface design, continuous learning and AI-based software developments.
By providing this real test environment, Sumitomo (SHI) Demag continues to demonstrate how the company is proactively addressing the innovations coming down the line, delivering intelligent automation and actively shaping the future of injection moulding.
Supporting sustainable plastics production
The test simulation results further underpin the strong industry emphasis placed on sustainable plastics processing. Specifically, the plus10 technology allows for stable processing of sensitive and heterogeneous materials, such as thermoplastic post-consumer recyclables and fast-curing elastomers. Thus supporting all the efficiency and defining characteristics of a fully circular plastics processing economy.
The research project ‘DarWIN’ was funded by the Federal Ministry of Education and Research (BMBF funding code 01IS20066). Concluding on 31 December 2021, the results are currently being processed and incorporated into the plus10 software. Plans are in place to publish the detailed insight at the end of 2022. Additional activities and live demonstrations of the development results will be shared at specialist events, including the "Digital Injection Moulding Meeting" to be hosted at the SKZ in Würzburg.