Resource requirements of an edge-based digital twin service: an experimental study

Q1 Computer Science Virtual Reality Intelligent Hardware Pub Date : 2022-12-01 DOI:10.1016/j.vrih.2022.05.005
Federico Mungari , Milan Groshev , Carla Fabiana Chiasserini
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引用次数: 1

Abstract

Digital Twin (DT) is a pivotal application under the industrial digital transformation envisaged by the fourth industrial revolution (Industry 4.0). DT defines intelligent and real-time faithful reflections of physical entities such as industrial robots, thus allowing their remote control. Relying on the latest advances in Information and Communication Technologies (ICT), namely Network Function Virtualization (NFV) and Edge-computing, DT can be deployed as an on-demand service in the factories close proximity and offered leveraging radio access technologies. However, with the purpose of achieving the well-known scalability, flexibility, availability and performance guarantees benefits foreseen by the latest ICT, it is steadily required to experimentally profile and assess DT as a Service (DTaaS) solutions. Moreover, the dependencies between the resources claimed by the service and the relative demand and work loads require to be investigated. In this work, an Edge-based Digital Twin solution for remote control of robotic arms is deployed in an experimental testbed where, in compliance with the NFV paradigm, the service has been segmented in virtual network functions. Our research has primarily the objective to evaluate the entanglement among overall service performance and VNFs resource requirements, and the number of robots consuming the service varies. Experimental profiles show the most critical DT features to be the inverse kinematics and trajectory computations. Moreover, the same analysis has been carried out as a function of the industrial processes, namely based on the commands imposed on the robots, and particularly of their ion-level, resulting in a novel trade-off between computing and time resources requirements and trajectory guarantees. The derived results provide crucial insights for the design of network service scaling and resource orchestration frameworks dealing with DTaaS applications. Finally, we empirically prove LTE shortage to accommodate the minimum DT latency requirements.

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基于边缘的数字孪生服务资源需求的实验研究
数字孪生(DT)是第四次工业革命(工业4.0)所设想的工业数字化转型的关键应用。DT定义了物理实体(如工业机器人)的智能和实时忠实反映,从而允许它们进行远程控制。凭借资讯及通讯科技(ICT)的最新发展,即网络功能虚拟化(NFV)和边缘计算,DT可作为按需服务部署在工厂附近,并利用无线接达技术提供。然而,为了实现最新ICT所预见的众所周知的可扩展性、灵活性、可用性和性能保证优势,需要通过实验分析和评估DT即服务(DTaaS)解决方案。此外,需要调查服务所声明的资源与相对需求和工作负载之间的依赖关系。在这项工作中,在实验测试平台上部署了一个基于边缘的数字孪生解决方案,用于机器人手臂的远程控制,根据NFV范例,该服务已被分割为虚拟网络功能。我们的研究主要目的是评估整体服务性能和VNFs资源需求之间的纠缠,以及消耗服务的机器人数量的变化。实验曲线表明,最关键的DT特征是逆运动学和轨迹计算。此外,同样的分析已经作为工业过程的功能进行,即基于对机器人施加的命令,特别是离子水平,导致计算和时间资源需求与轨迹保证之间的新型权衡。所得结果为处理DTaaS应用程序的网络服务扩展和资源编排框架的设计提供了重要的见解。最后,我们通过经验证明LTE短缺可以满足最小DT延迟要求。
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来源期刊
Virtual Reality  Intelligent Hardware
Virtual Reality Intelligent Hardware Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
6.40
自引率
0.00%
发文量
35
审稿时长
12 weeks
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