基于语音传感和深度学习算法的社交机器人辅助音乐课程

IF 2.8 3区 计算机科学 Q2 COMPUTER SCIENCE, CYBERNETICS
Xiao Dan
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引用次数: 0

摘要

在社交机器人教学领域,研究重点是如何利用技术手段提供更好的学习支持和个性化互动体验。社交机器人可以与学生互动,提供个性化的学习支持,从而提高学生的学习效率和参与度。社交机器人的语音感应模型可以通过语音识别和情感分析等技术实时感知学生的情绪和反馈,从而提供智能响应和指导。音乐课程资源深度学习推荐模型通过深度学习技术提取音乐特征,并结合课程兴趣提取技术,个性化推荐适合学生兴趣和能力的音乐资源。通过分析学生的兴趣和学习目标,机器人可以根据推荐算法提供符合学生需求的音乐学习资源,进一步激发学生的学习兴趣和热情。实验结果表明,在学习环境中使用社交机器人能显著提高学生的学习效率和参与度。通过个性化互动和智能应答引导,学生更容易理解和掌握音乐知识,同时体验到快乐和积极的学习情绪。研究验证了基于语音传感和深度学习算法的社交机器人辅助音乐课程的有效性,证明了其在提高学生学习效率和参与度方面的优势。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Social robot assisted music course based on speech sensing and deep learning algorithms

In the field of social robot teaching, research has focused on how to use technological means to provide better learning support and personalized interactive experiences. Social robots can interact with students and provide personalized learning support, thereby improving their learning effectiveness and engagement. The speech sensing model of social robots can perceive students’ emotions and feedback in real-time through technologies such as speech recognition and sentiment analysis, thereby providing intelligent responses and guidance. The deep learning recommendation model for music course resources extracts music features through deep learning techniques, and combines session interest extraction techniques to personalized recommend music resources suitable for students’ interests and abilities. By analyzing students’ interests and learning goals, robots can provide music learning resources that meet their needs based on recommendation algorithms, further stimulating their learning interest and enthusiasm. The experimental results show that the use of social robots in the learning environment significantly improves the learning effectiveness and participation of students. Through personalized interaction and intelligent response guidance, students are more likely to understand and master music knowledge, while experiencing joyful and positive learning emotions. The study validated the effectiveness of social robot assisted music courses based on speech sensing and deep learning algorithms, demonstrating its advantages in improving student learning effectiveness and engagement.

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来源期刊
Entertainment Computing
Entertainment Computing Computer Science-Human-Computer Interaction
CiteScore
5.90
自引率
7.10%
发文量
66
期刊介绍: Entertainment Computing publishes original, peer-reviewed research articles and serves as a forum for stimulating and disseminating innovative research ideas, emerging technologies, empirical investigations, state-of-the-art methods and tools in all aspects of digital entertainment, new media, entertainment computing, gaming, robotics, toys and applications among researchers, engineers, social scientists, artists and practitioners. Theoretical, technical, empirical, survey articles and case studies are all appropriate to the journal.
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