![]() The physical and virtual then combine and come together to create what’s known as a digital twin. ![]() For the ‘virtual’ side of things a model would be created, perhaps in software such as anylogic, and this model would feed information back to a database. This part denotes the ‘physical’ aspect of a digital twin. ![]() How it works: Sensors on the aeroplane will send information to two points, user input – an actual human – and a database where the information is collected. This article contains an easy to understand example of a digital twin using an aeroplane. ![]() Here is a very informative article from AnyLogic that delves deeper into the world of digital twins. By using the model and the data it is possible to build powerful digital twin software for experimentation, analysis and communication. There are two key elements of a digital twin: A dynamic simulation model and data that reflects the current state of a live system. Digital twins are seen as a natural progression from hand-drawn products to computer-aided design to model-based engineering. In short, digital twins can be summarised as the digital representation of physical or non physical processes. ‘A digital twin is a virtual model designed to accurately reflect a physical object’ – IBM.‘A digital twin is a virtual representation that serves as the real-time digital counterpart of a physical object or process’ – Google.Many broad definitions of digital twins can be found across the internet: To stay up to date with AnyLogic 9 and developments across all the AnyLogic platforms, subscribe to the AnyLogic Newsletter.A digital twin is a concept that originated in 2002, however the first practical definition came about in 2010 from NASA. The section concluded with the announcement of an online AnyLogic 9 IDE prototype from December 2020 that will initially be available for limited community testing. Teamwork support and deep integration with Git.Web UI that makes model development much quicker.BIM and GIS capabilities including importing of large 3D BIM files and accessing GIS meta information.Very large model support (tens of thousands of pedestrians for example).The presentation included details of performance improvements, support for multiple scripting languages, BIM and GIS advancements, the new GUI, teamwork support and Git, licensing options, and more: Interface changes are focused on improving the user experience and helping modelers work more quickly and intuitively. The release of version 9 is set to transform model development, simulation, and presentation on the AnyLogic platform. Looking further along the roadmap, planned OAuth/openID and Kubernetes integrations promise to help expand cloud simulation accessibility and versatility. Soon after and before the end of the year, with the 2.3 release,ĪnyLogic Cloud users will be able to run simulation models in a reinforcement learning mode and more enterprise features will be added, such as LDAP support. The cloud platform iterates quickly, and the upcoming 2.2 release is set to introduce an updated admin interface and an all-runs download. Reinforcement Learning experiment using either Microsoft Bonsai or Pathmind platforms.Additional DXF support (2010+) and conversion of CAD drawing layers into AnyLogic markup.Pedestrian library updates, including social distancing.Overhead cranes with multiple bridges API to crane operation.The next major release of the AnyLogic simulation platform is scheduled to include: Cloud updates will continue to iterate throughout, promising API, admin, and reinforcement learning advancements. ![]() Until then, AnyLogic 8 and vertical library development will continue, with AnyLogic 8.7 due in November 2020. September 2021 and the AnyLogic Conference is the target release date for AnyLogic 9. AnyLogic 9 overview and roadmap presentation recording from the AnyLogic User Experience with MaxRad, October 12th, 2020. ![]()
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