基于图形的雾安全形式化方法研究——以油气精炼厂为例

Ayoub Bouheroum, Zakaria Benzadri, F. Belala
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引用次数: 5

摘要

Fog具有减少服务延迟和提高感知质量的优点,以及总体数据分布的好处。然而,由于雾架构的异构性、分层结构和非常大规模的基础设施,它的安全或隐私问题提出了重大挑战。CA-BRS模型是带控制代理的图形反应系统的扩展,是雾体系结构规范的一个合适的形式化语义框架。对于一个复杂的系统,它将计算和物理实体分布的关注点分别分为两个不同的模型:1)计算或虚拟代理模型和2)物理图形模型。本文的主要目的有两个;首先,我们提出了一种考虑安全级别的多视图雾计算架构,然后根据该语义框架定义了雾架构的物理实体及其地理分布,以及用于表示安全功能的虚拟实体。并以某油气精炼厂为例进行了实例分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards a Formal Approach Based on Bigraphs for Fog Security: Case of Oil and Gas Refinery Plant
Fog has the advantage of reducing service latency and improving perceived quality, as well as the benefit of total data distribution. However, its security or privacy issues pose major challenges due to the heterogeneity, hierarchical structure, and very large scale infrastructure of Fog architecture. CA-BRS model, an extension of Bigraphical Reactive Systems with Control Agents, is showed to be an appropriate formal semantic framework for Fog architecture specification. It separates, for a complex system, the concerns of computation and physical entities distribution, respectively into two different models: 1) computational or virtual agents' model and 2) physical Bigraph model. The main objective of this paper is twofold; first, we propose a multi-views architecture to Fog computing taking into account security level, then we define, according to this semantic framework, the physical entities of Fog architecture and their geographical dispersion, as well as the virtual entities devoted to represent security functionalities. Our proposal is illustrated through a realistic case study of Oil and Gas Refinery Plant.
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