应对以问题为导向的需求建模的视觉和概念复杂性

IF 1.7 3区 计算机科学 Q3 COMPUTER SCIENCE, SOFTWARE ENGINEERING
Waqas Junaid, Zhi Li
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引用次数: 0

摘要

在当代网络物理系统(CPS)时代,软件可以控制、协调和管理物理对象以解决现实世界中的问题。因此,包括学术界和工业界在内的需求工程(RE)界转向已有的 RE 方法并将其应用于 CPS,这并不奇怪。然而,现实 CPS 的问题图往往具有视觉和概念上的复杂性,在实际应用 PF 之前必须解决这些问题。本文将分两步解决上述问题:首先,通过应用眼动跟踪软件评估一种旨在减轻为 PF 开发的 CARE(计算机辅助需求工程)工具固有的视觉复杂性的技术,得出初步结论。我们开发了一种用于检测和解决重叠问题的自动布局技术,旨在从认知、心理学和用户研究的角度提高其可用性;其次,复杂性矩阵技术被用于计算和评估问题图中固有的概念复杂性。我们的眼动跟踪结果表明,重叠检测和解决方法已成功实施。第二步的案例研究也证明了复杂度矩阵计算的适用性和有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tackling visual and conceptual complexity of problem-oriented modeling of requirements

Tackling visual and conceptual complexity of problem-oriented modeling of requirements

In the contemporary age of cyber-physical systems (CPS), where software governs the control, coordination, and management of physical objects to tackle real-world problems, engineering requirements for such systems present considerable challenges. Consequently, it is not surprising that the requirements engineering (RE) community, encompassing both academia and industry, has turned to established RE methodologies and applied them within the context of CPS; notably, Jackson’s Problem Frames (PF) approach deploys problem diagrams for modeling CPS. However, problem diagrams of realistic CPS often present visual and conceptual complexities, which must be addressed before PF can be usefully applied in practice. In this paper, the above problem is addressed in two steps: firstly, preliminary findings are presented by deriving from the application of eye-tracking software in the assessment of a technique designed to mitigate the visual complexity inherent in the CARE (Computer-Aided Requirements Engineering) tool developed for PF. An auto-layout technique is developed for detecting and resolving overlaps, aimed at enhancing its usability from the perspectives of cognition, psychology, and user studies; secondly, the technique of a complexity matrix is applied for calculating and evaluating the conceptual complexity inherent in problem diagrams. Our eye-tracking results show the successful implementation of overlap detection and resolution. The case studies in the second step also demonstrate the applicability and effectiveness of the complexity matrix calculations.

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来源期刊
Software Quality Journal
Software Quality Journal 工程技术-计算机:软件工程
CiteScore
4.90
自引率
5.30%
发文量
26
审稿时长
>12 weeks
期刊介绍: The aims of the Software Quality Journal are: (1) To promote awareness of the crucial role of quality management in the effective construction of the software systems developed, used, and/or maintained by organizations in pursuit of their business objectives. (2) To provide a forum of the exchange of experiences and information on software quality management and the methods, tools and products used to measure and achieve it. (3) To provide a vehicle for the publication of academic papers related to all aspects of software quality. The Journal addresses all aspects of software quality from both a practical and an academic viewpoint. It invites contributions from practitioners and academics, as well as national and international policy and standard making bodies, and sets out to be the definitive international reference source for such information. The Journal will accept research, technique, case study, survey and tutorial submissions that address quality-related issues including, but not limited to: internal and external quality standards, management of quality within organizations, technical aspects of quality, quality aspects for product vendors, software measurement and metrics, software testing and other quality assurance techniques, total quality management and cultural aspects. Other technical issues with regard to software quality, including: data management, formal methods, safety critical applications, and CASE.
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