The effect of micro-level and macro-level signalling on learning with 360° videos

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS

ACS Applied Bio Materials Pub Date : 2024-04-03 DOI:10.1002/acp.4192

Maik Beege, Steve Nebel, Sascha Schneider, Günter Daniel Rey

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Abstract

360° videos raised the attention of educators, as they can mediate complex environments in educational settings. However, learning irrelevant cognitive strains might be imposed because it is necessary to navigate through spherical material. These downsides could be compensated by using signalling techniques. In a two (macro-level vs. no signalling) × two (micro-level vs. no signalling) factorial between-subjects design plus control group, 203 students watched a video about visual and behavioural characteristics of animals. Learning outcomes, cognitive load, disorientation, and presence were investigated. Results revealed that macro-level signalling enhanced learning outcomes. Descriptively, the control group outperformed all experimental groups except the condition with macro-level signalling regarding retention performance. According to an exploratory path model, extraneous load moderated the effects of signalling on learning outcomes. Results are discussed considering cognitive load and spatial presence induced by using 360° videos as learning material.

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微观和宏观信号对 360° 视频学习的影响

360° 视频引起了教育工作者的关注，因为它们可以在教育环境中调解复杂的环境。不过，由于需要浏览球形材料，可能会造成与学习无关的认知压力。这些缺点可以通过信号技术来弥补。在一个二（宏观层面与无信号）×二（微观层面与无信号）析因主体间设计加对照组中，203 名学生观看了一段关于动物视觉和行为特征的视频。对学习效果、认知负荷、迷失方向和临场感进行了调查。结果显示，宏观信号增强了学习效果。从描述性角度看，除了有宏观信号的实验组，对照组的学习成绩均优于其他实验组。根据探索性路径模型，外在负荷调节了信号对学习结果的影响。考虑到使用 360° 视频作为学习材料所引起的认知负荷和空间临场感，对结果进行了讨论。

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

ACS Applied Bio Materials Chemistry-Chemistry (all)

CiteScore

9.40

自引率

2.10%

发文量

464