实现人工智能的包容性:边缘化女学生与同龄人认知参与的比较研究

IF 6.7 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Shiyan Jiang, Jeanne McClure, Cansu Tatar, Franziska Bickel, Carolyn P. Rosé, Jie Chao
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引用次数: 0

摘要

本研究关注历来缺乏计算机学习机会的边缘化女学生,以满足对包容性人工智能教育的需求。本研究运用交叉性理论框架来理解性别、种族和民族是如何交叉影响这些学生的学习经历和结果的。具体而言,本研究调查了 27 名高中学生在机器学习实践中的认知参与情况。我们通过 Wilcoxon-Mann-Whitney 检验来探索边缘化女学生与同龄人在认知参与方面的差异,采用比较内容分析法来深入研究显著差异,并对访谈数据进行专题分析,以深入了解学生的机器学习模型开发过程。研究结果表明,在参与需要汲取不同文化视角的机器学习实践时,边缘化女学生的表现明显高于同龄人。特别是,边缘化女学生在整体语言分析、关注作者意图和识别语言中的文化细微差别方面表现出优势。这项研究表明,跨学科整合语言分析和机器学习有可能增强边缘化女学生的能力,扩大她们的视野。此外,本研究还呼吁采用基于优势的方法来重塑代表性不足的说法,并促进对机器学习和人工智能的公平参与。关于本主题的已知情况女学生,尤其是那些来自非裔美国人和拉丁裔学生等代表性不足群体的女学生,在计算机领域的认知参与度往往较低。被边缘化的女学生拥有独特的优势,如果加以培养,她们不仅有可能改变自己的学习经历,还能为计算机领域的进步做出贡献。在 K-12 人工智能(即计算机的一个子领域)教育中,增强被边缘化的女学生的能力至关重要,这有助于弥合人工智能领域的性别和种族差异。在回答这些问题时,她们通过考虑特征之间的相互作用和作者的意图,展示了一种分析语言的整体方法。她们利用了有关在不同文化背景下如何使用语言表达意义的知识。对实践和/或政策的启示教育工作者应该设计学习环境,鼓励学生利用他们的文化背景、语言洞察力和不同经验,提高他们在人工智能相关活动中的参与度和表现。教育工作者应战略性地将语言分析和机器学习整合到不同学科中,创造跨学科学习体验,支持学生探索语言、文化和人工智能之间的相互作用。教育机构和政策倡议应采用基于优势的方法,通过承认边缘化女学生的固有能力和不同背景,重点增强她们的能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Towards inclusivity in AI: A comparative study of cognitive engagement between marginalized female students and peers

Towards inclusivity in AI: A comparative study of cognitive engagement between marginalized female students and peers

This study addresses the need for inclusive AI education by focusing on marginalized female students who historically lack access to learning opportunities in computing. It applies the theoretical framework of intersectionality to understand how gender, race and ethnicity intersect to shape these students' learning experiences and outcomes. Specifically, this study investigated 27 high-school students' cognitive engagement in machine learning practices. We conducted the Wilcoxon–Mann–Whitney test to explore differences in cognitive engagement between marginalized female students and their peers, employed comparative content analysis to delve into significant differences and analysed interview data thematically to gain deeper insights into students' machine learning model development processes. The findings indicated that, when engaging in machine learning practices requiring drawing diverse cultural perspectives, marginalized female students demonstrated significantly higher performance compared to their peers. In particular, marginalized female students exhibited strengths in holistic language analysis, paying attention to writers' intentions and recognizing cultural nuances in language. This study suggests that integrating language analysis and machine learning across subjects has the potential to empower marginalized female students and amplify their perspectives. Furthermore, it calls for a strengths-based approach to reshape the narrative of underrepresentation and promote equitable participation in machine learning and AI.

Practitioner notes

What is already known about this topic

  • Female students, particularly those from underrepresented groups such as African American and Latina students, often experience low levels of cognitive engagement in computing.
  • Marginalized female students possess unique strengths that, when nurtured, have the potential to not only transform their own learning experiences but also contribute to the advancement of the computing field.
  • It is critical to empower marginalized female students in K-12 AI (ie, a subfield of computing) education, seeking to bridge the gender and racial disparity in AI.

What this paper adds

  • Marginalized female students outperformed their peers in responding to machine learning questions related to feature analysis and feature distribution interpretation.
  • When responding to these questions, they demonstrated a holistic approach to analysing language by considering interactions between features and writers' intentions.
  • They drew on knowledge about how language was used to convey meaning in different cultural contexts.

Implications for practice and/or policy

  • Educators should design learning environments that encourage students to draw upon their cultural backgrounds, linguistic insights and diverse experiences to enhance their engagement and performance in AI-related activities.
  • Educators should strategically integrate language analysis and machine learning across different subjects to create interdisciplinary learning experiences that support students' exploration of the interplay among language, culture and AI.
  • Educational institutions and policy initiatives should adopt a strengths-based approach that focuses on empowering marginalized female students by acknowledging their inherent abilities and diverse backgrounds.
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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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