寻求支持职前教师的响应式教学:利用人工智能支持的虚拟仿真

IF 6.7 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Nuodi Zhang, Fengfeng Ke, Chih‐Pu Dai, Sherry A. Southerland, Xin Yuan
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引用次数: 0

摘要

培养职前教师(PSTs)能够注意、解释、回应和协调学生的想法--回应式教学的核心实践--是当代科学和数学教师教育的一个重要目标。这项混合方法研究采用了虚拟现实(VR)支持的模拟,并整合了人工智能(AI)支持的虚拟学生,探讨了PST在尝试组织回应式讨论时经常出现的谈话动作模式,以及利用人工智能支持的虚拟模拟提高PST回应式教学技能的能力和挑战。对PST(n = 24)和虚拟学生的谈话动作进行的序列分析表明,虽然PST确实采用了回应式谈话动作,但他们在从权威式、以教师为中心的教学方法过渡到回应式教学方法时遇到了困难。通过对对话记录、现场观察记录和半结构式访谈进行三角分析,定性分析揭示了参与者在以下方面的参与情况:(1)利用人工智能支持的模拟的设计特点来协调讨论;(2)通过自然化和情境化的互动进行迭代演练;(3)探索人工智能驱动的虚拟学生的现实性和界限。研究结果提供了利用人工智能支持的虚拟仿真来提高PST响应式教学技能的潜力。该研究还强调,职前教师需要在自适应和原位支持下参与精心设计的教学实践。职前教师需要有系统的机会来熟练掌握这种方法。虚拟模拟可为职前教师提供实践互动教学的机会,并已证明可提高他们的教学技能。人工智能(AI)驱动的虚拟学生可以集成到虚拟仿真中,实现互动和真实的教学实践。本文所补充的内容是,人工智能支持的模拟有可能支持PST的响应式教学技能。虽然专业技术人员会做出响应式教学的言语动作,但由于认识论和教学资源有限,他们很难在具有挑战性的教学场景中做出这些言语动作。人工智能支持的模拟教学为专业教师提供了反复练习和情境化练习的机会,使他们能够练习回应式教学的谈话技巧;这对教师分析学生话语和实时回应提出了挑战。对实践和/或政策的影响 PST 应建立一个包含基本和高级反应式谈话动作的教学曲目库。学习模块应适应专业教师的已有经验,并为专业教师提供现场学习支持,帮助他们驾驭具有挑战性的教学场景。将互动功能和基于人工智能的虚拟学生整合到模拟中,可促进 PST 的积极参与。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Seeking to support preservice teachers' responsive teaching: Leveraging artificial intelligence‐supported virtual simulation
Preparing preservice teachers (PSTs) to be able to notice, interpret, respond to and orchestrate student ideas—the core practices of responsive teaching—is a key goal for contemporary science and mathematics teacher education. This mixed‐methods study, employing a virtual reality (VR)‐supported simulation integrated with artificial intelligence (AI)‐powered virtual students, explored the frequent patterns of PSTs' talk moves as they attempted to orchestrate a responsive discussion, as well as the affordances and challenges of leveraging AI‐supported virtual simulation to enhance PSTs' responsive teaching skills. Sequential analysis of the talk moves of both PSTs (n = 24) and virtual students indicated that although PSTs did employ responsive talk moves, they encountered difficulties in transitioning from the authoritative, teacher‐centred teaching approach to a responsive way of teaching. The qualitative analysis with triangulated dialogue transcripts, observational field notes and semi‐structured interviews revealed participants' engagement in (1) orchestrating discussion by leveraging the design features of AI‐supported simulation, (2) iterative rehearsals through naturalistic and contextualized interactions and (3) exploring realism and boundaries in AI‐powered virtual students. The study findings provide insights into the potential of leveraging AI‐supported virtual simulation to improve PSTs' responsive teaching skills. The study also underscores the need for PSTs to engage in well‐designed pedagogical practices with adaptive and in situ support.Practitioner notesWhat is already known about this topic Developing the teaching capacity of responsive teaching is an important goal for preservice teacher (PST) education. PSTs need systematic opportunities to build fluency in this approach. Virtual simulations can provide PSTs with the opportunities to practice interactive teaching and have been shown to improve their teaching skills. Artificial intelligence (AI)‐powered virtual students can be integrated into virtual simulations to enable interactive and authentic practice of teaching. What this paper adds AI‐supported simulation has the potential to support PSTs' responsive teaching skills. While PSTs enact responsive teaching talk moves, they struggle to enact those talk moves in challenging teaching scenarios due to limited epistemic and pedagogical resources. AI‐supported simulation affords iterative and contextualized opportunities for PSTs to practice responsive teaching talk moves; it challenges teachers to analyse student discourse and respond in real time. Implications for practice and/or policy PSTs should build a teaching repertoire with both basic and advanced responsive talk moves. The learning module should adapt to PSTs' prior experience and provide PSTs with in situ learning support to navigate challenging teaching scenarios. Integrating interaction features and AI‐based virtual students into the simulation can facilitate PSTs' active participation.
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来源期刊
British Journal of Educational Technology
British Journal of Educational Technology EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
15.60
自引率
4.50%
发文量
111
期刊介绍: BJET is a primary source for academics and professionals in the fields of digital educational and training technology throughout the world. The Journal is published by Wiley on behalf of The British Educational Research Association (BERA). It publishes theoretical perspectives, methodological developments and high quality empirical research that demonstrate whether and how applications of instructional/educational technology systems, networks, tools and resources lead to improvements in formal and non-formal education at all levels, from early years through to higher, technical and vocational education, professional development and corporate training.
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