Digital twins are cyber clones of physical things. Their use in product design and planning is big news at the moment, and using them to plan entire factories is potentially the next major step toward smart manufacturing.
Digital twins are already revolutionizing the development of smart products. Based on physics data, they digitally model forms, functions and chemical and physical processes. This dramatically reduces the cost of developing prototypes, because faults can be weeded out long before things get expensively physical. Once the product has taken on physical form, it feeds real-world data back to its digital twin throughout its entire lifecycle. In this way, digital twinning can be used to optimize processes, reduce costs and shorten time to market. An impressive example of this is the shipping industry, where General Electric (GE) is charting new waters by fitting cruise liners with sensors that feed data to digital twins. The idea is that the twins will reduce ship down-time by constantly monitoring and analyzing wear data.
Virtual commissioning of smart factories
The next chapter in the smart factory story could well revolve around designing digital twins of entire production plants. With digital twins, plants can be virtually tested in 3D before being physically commissioned into service. Faults and malfunctions can thus be remedied before the hardware is delivered, thereby saving time and money. And once the plant is operational, it is possible to continuously optimize processes by feeding real data back to the digital twin. For example, the Austrian vehicle engineering and contract manufacturing firm Magna Steyr is currently upgrading its production facilities . As well as collaborative robots, the plans call for a virtual model of the entire factory. Meanwhile, the German packaging machinery manufacturer Optima already has such a digital twin in use. Its new production line conveyor system is supported by a digital model that simulates re-configurations and product flows.
The future of digital factory twins is, of course, closely aligned with the future of big data for the simple reason that virtual models of entire production systems and factories necessitate the processing and storage of truly colossal amounts of data. Perhaps in the not-too-distant future, digital representations of factories will operate in real-time alongside their physical counterparts in such a way that on-screen changes to the virtual factory will automatically initiate changes to the real factory.
The manifold and growing opportunities of digital twinning will be on show at HANNOVER MESSE 2017. The Industrial Automation and Digital Factory shows, in particular, will feature an array of lectures, demonstrations and conferences on the convergence of the virtual and physical worlds.