机器人
协作学习
计算机科学
机器人学
职业教育
控制(管理)
批判性思维
生成语法
教育技术
专业发展
教育机器人学
心理学
人工智能
数学教育
生成模型
认知
专业学习社区
高阶思维
主动学习(机器学习)
知识管理
教学方法
人机交互
合作学习
体验式学习
基于问题的学习
培训(气象学)
教学设计
订单(交换)
计算思维
教育学
人机交互
作者
Gwo-Jen Hwang,Huan‐Fang Lee,Ching-Yi Chang
标识
DOI:10.1177/07356331261437504
摘要
Recent advancements in robot project-based training have attracted considerable interest in professional education, particularly in fields such as nursing and healthcare. Fostering students’ higher-order thinking skills, such as critical thinking and decision-making, through educational robotics is essential for achieving the goals of vocational training. However, learners often face challenges in designing and programming effective, interactive robots tailored to healthcare-specific tasks. To address this gap, this study proposed a Generative AI-empowered collaborative robot project-based training (GenAI-CRPT) approach to support healthcare education. A quasi-experimental study was conducted at a university to examine the impact of the GenAI-CRPT approach on students’ learning achievement and higher-order thinking tendencies, including critical thinking, problem solving, collaboration, and design thinking. The experimental group ( n = 25) participated in the GenAI-CRPT intervention, while the control group ( n = 25) engaged in a conventional collaborative robot project-based training method. Results revealed that students in the experimental group significantly outperformed those in the control group in all assessed areas, including learning achievement, critical thinking, problem solving, collaboration, and design thinking. Epistemic Network Analysis (ENA) indicated that the experimental group engaged in more integrated learning processes, where collaboration and reflective practices played pivotal roles in enhancing cognitive engagement and problem-solving performance.
科研通智能强力驱动
Strongly Powered by AbleSci AI