Icon class icon_class fas fa-quote-left icon_class_computed fas fa-quote-left Related content 19: ANZLIC 2019 «snippet» text extracts about acquisition and creation of physical assets 20: Package Diagram overview of 'asset' 22: Mini StateMachines for @Entity, PotentialPhysicalAsset, ActualPhysicalAsset 21: Example instances for 'asset' 23: Mini StateMachine for DigitalTwin and DoAttach effect Activity 31: Case: Create a new physical asset using a «digital» @Entity initially as a digital "template" 32: Activity CreatePhysicalEntityFromDigitalEntity 34: Activity «STUB» PopulatePotentialWithProcessesAndTrackingData 33: Activity «STUB» PopulateDigitalWithDesignModels 35: Activity ActualisePhysicalAsset and «STUB» ManifestActualAssetFromPotentialAsset Source ANZLIC 2019 - Principles for Spatially Enabled Digital Twins of the Built and Natural Environment in Australia Copyright information Creative Commons Attribution 4.0 International Snippet kind INFO Keywords digital twin Previous snippet Traditionally, industry has created digital twins by retrospectively mapping, scanning, surveying, digitising or developing a digital copy of a real world object. Full quote Today this process can occur in reverse, with the digital model developed first followed by the physical asset. Next snippet Related snippets Traditionally, industry has created digital twins by retrospectively mapping, scanning, surveying, digitising or developing a digital copy of a real world object. Digital twins are dynamic, data driven, multi-dimensional digital replicas of a physical entity. In contrast to traditional digital models, digital twins can connect with the physical ‘twin’ they model, changing alongside the physical system via real-time sensors and actuators. Related snippets (backlinks) Visit also Visit also (backlinks) Flags
