Abstract
As the Internet of Things (IoT) is gaining ground and becoming increasingly popular in smart city applications such as smart energy, smart buildings, smart factories, smart transportation, smart farming, and smart healthcare, the digital twin concept is evolving as complementary to its counter physical part. While an object is on the move, its operational and surrounding environmental parameters are collected by an edge computing device for local decision. A virtual replica of such object (digital twin) is based in the cloud computing platform and hosts the real-time physical object data, 2D and 3D models, historical data, and bill of materials (BOM) for further processing, analytics, and visualization. This paper proposes an end-to-end digital twin conceptual model that represents its complementary physical object from the ground to the cloud. The paper presents the proposed digital twin model’s multi-layers, namely, physical, communication, virtual space, data analytic and visualization, and application as well as the overlapping security layer. The hardware and software technologies that are used in building such a model will be explained in detail. A use case will be presented to show how the layers collect, exchange, and process the physical object data from the ground to the cloud.
Highlights
Smart factories and smart manufacturing are some of the important emerging smart cities’ applications
The creation of a digital twin model consists of several stages such as dynamic data collection from mobile sensors, data communication, real-time data simulation and modeling, machine learning and data analysis, visualization and business intelligence, and security
A lot of work has been done in each of these stages in isolation, there is a lack of interconnectivity between these stages for designing a digital twin model that presents the impact of each stage for a digital twin in a holistic manner
Summary
Smart factories and smart manufacturing are some of the important emerging smart cities’ applications. A smart object, product, system, and process consists of both a physical part and its complementing digital counterpart, referred to as virtual and cyber part, and more recently referred to as its digital twin. A lot of work has been steered in the direction of digital twin in various applications, a holistic, end-to-end conceptual model of a digital twin is yet in early stages of development. The creation of a digital twin model consists of several stages such as dynamic data collection from mobile sensors, data communication, real-time data simulation and modeling, machine learning and data analysis, visualization and business intelligence, and security.
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