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A Federated Digital Twin Framework for UAVs-Based Mobile Scenarios

Longyu Zhou, Supeng Leng, Qing Wang

2023IEEE Transactions on Mobile Computing27 citationsDOI

Abstract

With the development of communication networks and Artificial Intelligence (AI) technologies, Digital Twin (DT) now emerges to support various applications such as engineering, monitoring, controlling, healthcare and the optimization of cyber-physical systems. There is an increasing demand to create DTs that can represent physical entities for improving operational efficiency. A conventional DT consists of monitoring, imitation, and feedback control. However, conventional DTs cannot ensure efficient real-time imitation due to the high dynamics of physical systems such as UAV-based target tracking scenario. To address this issue, we propose a federated DT framework to support the imitation of mobile systems. It can guarantee real-time and accurate imitations under the prerequisite of comprehensive information acquired by a cooperative collection algorithm with the aid of UAVs. The framework can rapidly aggregate local DT models using an attention-based mechanism to improve mobile imitation accuracy. Additionally, we propose a multimodal-based DT inspection algorithm that can correct the postures of UAVs affected by winds for reliable imitations. We implement the framework in Gazebo. Our system simulations demonstrate the efficiency of the proposed federated DT framework. Our solution can reduce the imitation latency by an average of 68.4%, meanwhile, can improve the imitation accuracy by 16.4% on average when compared to traditional centralized and distributed imitation schemes.

Topics & Concepts

Computer scienceImitationDistributed computingLatency (audio)Cyber-physical systemMobile deviceReal-time computingArtificial intelligenceTelecommunicationsOperating systemPsychologySocial psychologyDigital Transformation in IndustryIoT and Edge/Fog ComputingRobot Manipulation and Learning
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