基于增强现实的数字环境对学生学习的影响分析

2022 International Conference on Emerging Smart Computing and Informatics (ESCI) Pub Date : 2022-03-09 DOI:10.1109/ESCI53509.2022.9758186

S. Gargrish, Harun, Leeza Sharma, Bhanu Sharma, Neha Tuli, Manisha Pathania

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引用次数: 0

摘要

增强现实(AR)是一种沉浸式技术，提供逼真、真实的教学体验。很明显，今天这一代人更喜欢技术辅助学习而不是传统学习。尽管过去对增强现实的研究已经为它如何改善不同领域的学习成果提供了一些启示，但对科学实验方法的研究仍然很少。实验知识对于学生对现象有更深的把握是必不可少的。本文讨论了使用AR技术为物理实验创建和开发智能手机应用程序的过程。这是一个额外的高中学习工具。这个基于移动的AR物理实验应用程序的最终目标是在传统的程序和学习资源之外提供细致的知识。在ElectroAR中选择了一些实验。为了评估反馈，需要进行专家评审。在真实的课堂环境中，ElectroAR的用户评估将在未来完成。

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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Analyzing the impact of Augmented Reality based Digital Environment on Students' Learning

Augmented Reality (AR) is an immersive technology that provides a realistic and authentic teaching learning experience. It is clear that the today's generation favors technology-assisted learning over traditional learning. Although past research on AR has offered some light on how it can improve learning outcomes in different fields, studies on science experiment methods are still sparse. Experimental knowledge is essential for students to have a deeper grasp of the phenomena. The process of creating and developing a Smartphone app for a physics experiment employing AR technology is discussed in this article. This is an additional learning tool for upper secondary school. The ultimate goal of this mobile based AR app for Physics Experiment is to deliver meticulous knowledge in addition to traditional procedures and learning resources. A number of experiments have been chosen for inclusion in ElectroAR. To gauge feedback, an expert review is done. The user evaluation of ElectroAR in real classroom settings is something that will be done in the future.

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2022 International Conference on Emerging Smart Computing and Informatics (ESCI)

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