处理sCPS中的系统复杂性:可用设计空间探索

2018 IEEE/ACM 4th International Workshop on Software Engineering for Smart Cyber-Physical Systems (SEsCPS) Pub Date : 2018-05-27 DOI:10.1145/3196478.3196489

S. Voss, Johannes Eder

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引用次数: 0

摘要

随着智能网络物理系统对复杂特性的要求越来越高，智能网络物理系统的设计也越来越复杂。这些特性需要可靠且可扩展的方法来处理不断增加的设计空间。因此，标准(如ISO26262)提出了系统开发(在这种情况下:汽车)系统的方法和技术。越来越多的功能相应地需要更强大的电子平台，从而需要处理集成的方法。在本文中，我们描述了复杂性的驱动因素，并说明了如何应用形式化方法，即设计空间探索技术来处理这种复杂性。该方法基于给定标准定义的需求，并通过(半)自动化方法支持系统设计人员处理系统设计中的复杂性-已经在早期设计阶段。

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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Handling System Complexity in sCPS: Usable Design Space Exploration

With a growing demand for complex features in smart cyber physical systems, the design of such system is getting increasingly complex. These features demand sound and scalable approaches to deal with the increasing design space. Consequently, standards (e.g. like ISO26262) propose methods and techniques for the systematic development of (in this case: automotive) systems. The growing amount of functionality correspondingly require more powerful electronic platforms and thus methods to deal with the integration. In this paper, we describe drivers for complexity and illustrate how formal methods, namely design space exploration techniques, can be applied to deal with this complexity. This approach is based on requirements defined by the given standards and supports the system designer by a (semi-) automatic approach to handle the complexity in system design – already in early design phases.

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2018 IEEE/ACM 4th International Workshop on Software Engineering for Smart Cyber-Physical Systems (SEsCPS)

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