The benefits that arise from the adoption of a systems engineering approach to the design of engineered systems are well understood and documented. However , with software systems, different approaches are required given the changeability of requirements and the malleability of software. With the design of industrial cyber-physical systems, one is confronted with the challenge of designing engineered systems that have a significant software component. Furthermore, that software component must be able to seamlessly interact with both the enterprise's business systems and industrial systems. In this paper, we present Janus, which together with the GORITE BDI agent framework, provides a methodology for the design of agent-based industrial cyber-physical systems. Central to the Janus approach is the development of a logical architecture as in traditional systems engineering and then the allocation of the logical requirements to a BDI (Belief Desire Intention) agent architecture which is derived from the physical architecture for the system. Janus has its origins in product manufacturing; in this paper, we apply it to the problem of Fault Location, Isolation and Service Restoration (FLISR) for power substations.
翻译:采用系统工程方法设计设计设计设计系统所带来的好处是完全理解和记载的,然而,由于软件系统的可变性和软件的可容性,需要采用不同的方法。随着工业网络物理系统的设计,人们面临着设计设计具有重要软件组成部分的工程系统的挑战。此外,软件组成部分必须能够与企业的商业系统和工业系统进行无缝互动。本文介绍Janus,它与GORITE BDI代理框架一起,为设计基于代理的工业网络物理系统提供了一种方法。Janus方法的核心是开发传统系统工程的逻辑结构,然后将逻辑要求分配给该系统物理结构产生的BDI(Belif Desire Invention)代理结构。Janus的起源是产品制造;在本文件中,我们将它应用于动力分站的失灵定位、离解和服务恢复问题。