在社会技术系统设计过程中使用任务支持要求

IF 2.3 4区 社会学 Q1 SOCIAL SCIENCES, INTERDISCIPLINARY
Systems Pub Date : 2024-09-05 DOI:10.3390/systems12090348
Andreas Gregoriades, Alistair Sutcliffe
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引用次数: 0

摘要

社会-技术系统(STS)是系统的系统,由人类和信息技术组成,共同运作以实现特定目标。这类系统过于复杂,但如果设计得当,可以显著提高 STS 的性能。STS 设计的关键阶段是确定自动化或软件支持的人类活动的功能要求,并解决社会和人类互动问题。要定义对人类操作的自动化支持,STS 设计人员需要确保规范不仅能满足系统的非功能要求 (NFR),还能满足人类参与者的要求,如人类的可靠性/工作量。然而,传统的 STS 设计方法并未充分考虑这些人为因素,这可能会导致 STS 失败或报废。本文针对这一问题提出了一种新的 STS 设计方法,并引入了一种新的需求类型,即任务支持需求 (TSR)。所提出的方法综合了 STS 设计的需求/软件工程方法、功能分配和人机交互视角,有助于在概念模型中应用人因知识,并通过 VR 仿真进行评估。这项工作采用了案例研究方法,可对 STS 的复杂问题进行深入、多方面的探索。本作品介绍了两个案例研究;第一个案例详细说明了如何在设计车载信息系统时应用该方法来提高驾驶员的态势感知能力。第二个案例是对该方法的实证评估,参与者运用该方法设计了一款移动应用程序,以最大限度地降低行人在公共场所通勤时感染传染病的风险。实证评估的结果表明,该方法通过有效解决人为因素问题,为 STS 设计做出了积极贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Using Task Support Requirements during Socio-Technical Systems Design
Socio-technical systems (STSs) are systems of systems, synthesising human and IT components that jointly operate to achieve specific goals. Such systems are overly complex but, if designed optimally, they can significantly improve STS performance. Critical phases in STS design are defining the functional requirements for automated or software-supported human activities and addressing social and human interaction issues. To define automation support for human operations, STS designers need to ensure that specifications will satisfy not only the non-functional requirements (NFR) of the system but also of its human actors such as human reliability/workload. However, such human factors aspects are not addressed sufficiently with traditional STS design approaches, which could lead to STS failure or rejection. This paper proposes a new STS design method that addresses this problem and introduces a novel type of requirements, namely, Task Support Requirements (TSR) that assists in specifying the functionality that IT systems should have to support human agents in undertaking their tasks by addressing human limitations. The proposed method synthesises a requirements/software engineering approach to STS design with functional allocation and an HCI perspective, which facilitates the application of human factors knowledge in conceptual models and evaluation through VR simulation. A case study methodology is employed in this work that allows in-depth, multi-faceted explorations of the complex issues that characterise STSs. Two case studies are presented in this work; the first is a detailed illustration of how the method is applied during the design of an in-vehicle information system to enhance drivers’ situation awareness. The second is an empirical evaluation of the method using participants that apply it to design a mobile application to minimise the risk of pedestrian travellers conceiving a contagious disease while commuting in public space. The results from the empirical evaluation showed that the method positively contributes to STS design by addressing human factors issues effectively.
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来源期刊
Systems
Systems Decision Sciences-Information Systems and Management
CiteScore
2.80
自引率
15.80%
发文量
204
审稿时长
11 weeks
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