深度教室:基于深度学习的校园教室数字孪生框架。

IF 4.5 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Neural Computing & Applications Pub Date : 2023-01-01 DOI:10.1007/s00521-021-06754-5

Saad Razzaq, Babar Shah, Farkhund Iqbal, Muhammad Ilyas, Fahad Maqbool, Alvaro Rocha

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引用次数: 10

摘要

许多不同的方法被用来通过监控教室来提高教育水平。发达国家使用智能教室，根据积累的学习成果和兴趣来提高教师的效率。智能课堂板、视听教具、多媒体与智能课堂环境直接相关。除了这些设施，还需要更多的努力来监控和分析学生的成绩、教师的表现、出勤记录和校园教室的内容交付。通过在校园教室中开发数字双胞胎，可以更好地提高教学质量和学习成果。在本文中，我们提出了DeepClass-Rooms，这是巴基斯坦旁遮普省公立学校出勤和课程内容监测的数字孪生框架。deepclassroom具有成本效益，需要RFID读取器和Fog层的高边缘计算设备进行考勤监控和内容匹配，使用卷积神经网络进行校园和在线课程。

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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DeepClassRooms: a deep learning based digital twin framework for on-campus class rooms.

A lot of different methods are being opted for improving the educational standards through monitoring of the classrooms. The developed world uses Smart classrooms to enhance faculty efficiency based on accumulated learning outcomes and interests. Smart classroom boards, audio-visual aids, and multimedia are directly related to the Smart classroom environment. Along with these facilities, more effort is required to monitor and analyze students' outcomes, teachers' performance, attendance records, and contents delivery in on-campus classrooms. One can achieve more improvement in quality teaching and learning outcomes by developing digital twins in on-campus classrooms. In this article, we have proposed DeepClass-Rooms, a digital twin framework for attendance and course contents monitoring for the public sector schools of Punjab, Pakistan. DeepClassRooms is cost-effective and requires RFID readers and high-edge computing devices at the Fog layer for attendance monitoring and content matching, using convolution neural network for on-campus and online classes.

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来源期刊

Neural Computing & Applications 工程技术-计算机：人工智能

CiteScore

11.40

自引率

8.30%

发文量

1280

审稿时长

6.9 months

期刊介绍： Neural Computing & Applications is an international journal which publishes original research and other information in the field of practical applications of neural computing and related techniques such as genetic algorithms, fuzzy logic and neuro-fuzzy systems. All items relevant to building practical systems are within its scope, including but not limited to: -adaptive computing- algorithms- applicable neural networks theory- applied statistics- architectures- artificial intelligence- benchmarks- case histories of innovative applications- fuzzy logic- genetic algorithms- hardware implementations- hybrid intelligent systems- intelligent agents- intelligent control systems- intelligent diagnostics- intelligent forecasting- machine learning- neural networks- neuro-fuzzy systems- pattern recognition- performance measures- self-learning systems- software simulations- supervised and unsupervised learning methods- system engineering and integration. Featured contributions fall into several categories: Original Articles, Review Articles, Book Reviews and Announcements.