Robots in special education: reasons for low uptake

IF 1.7 Q2 REHABILITATION Journal of Enabling Technologies Pub Date : 2019-06-17 DOI:10.1108/JET-12-2018-0070
Maria Jose Galvez Trigo, P. Standen, S. Cobb
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引用次数: 7

Abstract

Purpose The purpose of this paper is to identify the main reasons for low uptake of robots in special education (SE), obtained from an analysis of previous studies that used robots in the area, and from interviewing SE teachers about the topic. Design/methodology/approach An analysis of 18 studies that used robots in SE was performed, and the conclusions were complemented and compared with the feedback from interviewing 13 SE teachers from Spain and the UK about the reasons they believed caused the low uptake of robots in SE classrooms. Findings Five main reasons why SE schools do not normally use robots in their classrooms were identified: the inability to acquire the system due to its price or availability; its difficulty of use; the low range of activities offered; the limited ways of interaction offered; and the inability to use different robots with the same software. Originality/value Previous studies focussed on exploring the advantages of using robots to help children with autism spectrum conditions and learning disabilities. This study takes a step further and looks into the reasons why, despite the benefits shown, robots are rarely used in real-life settings after the relevant study ends. The authors also present a potential solution to the issues found: involving end users in the design and development of new systems using a user-centred design approach for all the components, including methods of interaction, learning activities and the most suitable type of robots.
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特殊教育中的机器人:普及率低的原因
目的本文的目的是通过对以往在特殊教育领域使用机器人的研究的分析,以及就这一主题采访特殊教育教师,找出特殊教育中机器人使用率低的主要原因。设计/方法/方法对18项在SE中使用机器人的研究进行了分析,并将结论与采访来自西班牙和英国的13名SE教师的反馈进行了补充和比较,这些教师认为是导致SE课堂上机器人使用率低的原因。发现SE学校通常不在教室里使用机器人的五个主要原因是:由于价格或可用性,无法获得该系统;其使用困难;提供的活动范围较低;提供的互动方式有限;以及无法使用具有相同软件的不同机器人。独创性/价值先前的研究侧重于探索使用机器人帮助患有自闭症谱系疾病和学习障碍的儿童的优势。这项研究更进一步,探讨了为什么在相关研究结束后,尽管显示了机器人的好处,但机器人很少在现实生活中使用。作者还提出了一个潜在的解决方案:让最终用户参与新系统的设计和开发,对所有组件采用以用户为中心的设计方法,包括交互方法、学习活动和最合适的机器人类型。
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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来源期刊
CiteScore
4.10
自引率
9.10%
发文量
21
期刊介绍: The Journal of Enabling Technologies (JET) seeks to provide a strong, insightful, international, and multi-disciplinary evidence-base in health, social care, and education. This focus is applied to how technologies can be enabling for children, young people and adults in varied and different aspects of their lives. The focus remains firmly on reporting innovations around how technologies are used and evaluated in practice, and the impact that they have on the people using them. In addition, the journal has a keen focus on drawing out practical implications for users and how/why technology may have a positive impact. This includes messages for users, practitioners, researchers, stakeholders and caregivers (in the broadest sense). The impact of research in this arena is vital and therefore we are committed to publishing work that helps draw this out; thus providing implications for practice. JET aims to raise awareness of available and developing technologies and their uses in health, social care and education for a wide and varied readership. The areas in which technologies can be enabling for the scope of JET include, but are not limited to: Communication and interaction, Learning, Independence and autonomy, Identity and culture, Safety, Health, Care and support, Wellbeing, Quality of life, Access to services.
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