Requirements Rationalization and Synthesis Enabled by Model Synchronization

IEEE Open Journal of Systems Engineering Pub Date : 2023-02-24 DOI:10.1109/OJSE.2023.3249048

Siyuan Ji;Charles E. Dickerson;Michael Wilkinson

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Abstract

In the international standard for system and software engineering ISO/IEC/IEEE 15288: 2015, the output of the stakeholder needs and the business or mission analysis technical processes are transformed into a technical view of the system by the system requirements definition process. In model-based systems engineering, functional needs can be modeled by use case diagrams. Intended outcomes of system requirements definition include resolution of disagreement about requirements, explicit agreement between stakeholders, and traceability. However, stakeholder needs are often elicited in a siloed manner and may be inconsistent. The lack of mathematically based systematic approaches for requirements definition poses a challenge to model-based transformation of needs into a technical view of the system that achieves agreement between stakeholders. This article specifies and demonstrates mathematical frameworks for rationalizing and synthesizing functional needs that have been captured through an elicitation process. Benefits of this approach include but are not limited to supporting rigorous identification and resolution of disagreements and facilitating systematic analysis of change impact to achieve stakeholder agreement all with minimal intervention by the system engineers.

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模型同步实现的需求合理化和综合

在系统和软件工程国际标准ISO/IEC/IEEE 15288:2015中，利益相关者需求和业务或任务分析技术过程的输出通过系统需求定义过程转化为系统的技术视图。在基于模型的系统工程中，功能需求可以通过用例图进行建模。系统需求定义的预期结果包括解决对需求的分歧、利益相关者之间的明确协议以及可追溯性。然而，利益相关者的需求往往是以孤立的方式引发的，并且可能是不一致的。需求定义缺乏基于数学的系统方法，这对基于模型的需求转换为实现利益相关者之间一致的系统技术视图构成了挑战。本文指定并演示了通过启发过程获取的合理化和综合功能需求的数学框架。这种方法的好处包括但不限于支持严格识别和解决分歧，促进对变化影响的系统分析，以实现利益相关者的一致意见，所有这些都需要系统工程师的最小干预。

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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IEEE Open Journal of Systems Engineering

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