E. Sisinni, P. Bellagente, A. Depari, A. Flammini, Massimiliano Gaffurini, M. Pasetti, S. Rinaldi, P. Ferrari
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引用次数: 0
Abstract
The demand for enhanced flexibility in automation systems, dictated by initiatives as the Industry 4.0 in Europe or the Industrial Internet Consortium in the United States, can be satisfied inheriting solutions of the information technology (the so called IT-OT convergence). Other than communication and cloud technologies, virtualization will play a relevant role in the next future. The use of lightweight virtualization, e.g., in the form of containers for implementing the edge computing paradigm, is a promising tool to dynamically provide services depending on the actual production needs. However, requirements of industrial automation applications are different from those of office-like counterparts. For this reason, methodologies for evaluating obtainable performance are needed. In this work, an industrial-grade framework, the Siemens Industrial Edge, is considered. A reference testbed is setup to evaluate latencies when information is exchanged between two user applications. Experiments demonstrate that round trip time in the order of 10 ms is feasible, compatible with the requirements of both process control systems and supervision applications.
由欧洲的工业4.0或美国的工业互联网联盟(Industrial Internet Consortium)等倡议所决定的对自动化系统增强灵活性的需求,可以通过继承信息技术的解决方案(所谓的IT-OT融合)来满足。除了通信和云技术,虚拟化将在未来发挥重要作用。使用轻量级虚拟化,例如,以容器的形式实现边缘计算范式,是一种很有前途的工具,可以根据实际生产需求动态提供服务。然而,工业自动化应用的需求与类似办公室的应用不同。出于这个原因,需要评估可获得性能的方法。在这项工作中,考虑了一个工业级框架,西门子工业边缘。设置一个参考测试平台来评估两个用户应用程序之间交换信息时的延迟。实验表明,往返时间在10 ms左右是可行的,既符合过程控制系统的要求,也符合监督应用的要求。
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