计算思维
设计思维
独创性
计算机科学
批判性系统思维
教学设计
逻辑推理
物联网
平行思维
认知
批判性思维
数学教育
人工智能
人机交互
多媒体
创造力
心理学
万维网
社会心理学
神经科学
出处
期刊:Library Hi Tech
[Emerald Publishing Limited]
日期:2023-12-27
卷期号:42 (2): 730-747
被引量:1
标识
DOI:10.1108/lht-01-2023-0002
摘要
Purpose The study integrated understanding by design-Internet of Things (UbD-IoT) education with design thinking and computational thinking to plan and design an IoT course. Cross-domain application examples were employed to train students in problem-understanding, deep thinking and logical design for IoT applications. Design/methodology/approach In this study, the UbD model was integrated with design thinking and computational thinking in the planning and design of an IoT course. The examples of cross-domain applications were used to train students to understand a problem by engaging themselves in deep thinking and helping them think and design logically for an IoT application. Findings The UbD-IoT learning design greatly decreased students' overall cognitive load. UbD-IoT learning has a significant impact on the performance of computational thinking in problem-solving and problem-understanding. The impact of UbD-IoT learning on logical thinking and program learning cognition in students needs to be verified. Originality/value The results of this study have shown that the UbD model is effective in reducing the cognitive load of a learning course and also strengthens T-competencies in the lateral skills of computational thinking, critical problem-solving, logical thinking and creative thinking.
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