Efficient design of SCADA systems using minimum spanning trees and the NFR Framework

Haranath Yakkali, N. Subramanian
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引用次数: 1

Abstract

Supervisory Control and Data Acquisition (SCADA) systems are being increasingly used to monitor and control critical infrastructures ranging from computer networks to manufacturing, and proper design of SCADA systems is an important issue for developers of SCADA systems and their users. Current practice seems to center around purchasing a best-of-breed solution and configuring it to meet the expected system goals. In this paper we propose an efficient design approach based on minimum spanning trees and the NFR Framework(NFR standing for Non-Functional Requirements) wherein SCADA designs are captured in spanning trees and minimum spanning trees indicate the optimally weighted designs, and the most suitable among these weighted designs is chosen by employing the NFR Framework, which is a goal-oriented framework for analyzing competing alternatives and choosing the best one based on the goals for the SCADA system. The design algorithm is verified by applying it to a case study.
基于最小生成树和NFR框架的SCADA系统高效设计
监控和数据采集(SCADA)系统越来越多地用于监视和控制从计算机网络到制造业的关键基础设施,而SCADA系统的正确设计对于SCADA系统的开发人员及其用户来说是一个重要的问题。当前的实践似乎围绕着购买最佳的解决方案并对其进行配置以满足预期的系统目标。在本文中,我们提出了一种基于最小生成树和NFR框架(NFR代表非功能需求)的有效设计方法,其中SCADA设计被捕获在生成树中,最小生成树表示最佳加权设计,并通过使用NFR框架选择这些加权设计中最合适的设计。它是一个以目标为导向的框架,用于分析竞争方案,并根据SCADA系统的目标选择最佳方案。通过实例验证了设计算法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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