Research on the Dynamic Monitoring System of Intelligent Digital Teaching

J. Interconnect. Networks Pub Date : 2022-02-07 DOI:10.1142/s0219265921470162

Huizhong Zhang, Fanrong Meng, Guizhen Wang, E. Saraswathi, D. Ruby

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Abstract

Education is one of the areas with a higher impact on digitalization, which takes various forms such as education through digital devices and technology to improve the learning process. Online and tangible computing platforms have become more interested in pursuing active teaching through educational technologies within the curriculum. Some common problems and considerations can be addressed, such as access, capacity, financing, periodic progress measurements, and evaluation results. The productive learning activity can be immediately and constantly monitored by proposing Digital Tangible Intelligent Monitoring systems (DTIMS). The decision tree method’s teaching methodology can efficiently perform this proposed system, which monitors the former challenges. At the same time, the next is resolved by a dynamic evaluation process based on the Internet of Things (IoT). The research is evaluated using the education systems currently adopted. The results highlighted the potential of the proposed model and helped to gain information in digital teaching. The simulation analysis is performed based on accuracy 97.69%, vulnerability 91.09%, and efficiency, proving the proposed framework’s reliability of 85.10%.

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智能数字化教学动态监控系统的研究

教育是受数字化影响较大的领域之一，数字化采取多种形式，如通过数字化设备和技术进行教育，以改善学习过程。在线和有形计算平台对通过课程中的教育技术进行主动教学越来越感兴趣。可以处理一些常见的问题和考虑事项，例如访问、能力、融资、定期进度度量和评估结果。通过提出数字有形智能监控系统(DTIMS)，可以对生产性学习活动进行即时和持续的监控。决策树方法的教学方法可以有效地执行该系统，并对前一个挑战进行监控。同时，下一个问题通过基于物联网(IoT)的动态评估过程来解决。本研究使用目前采用的教育系统进行评估。结果突出了所提出的模型的潜力，并有助于在数字教学中获取信息。仿真结果表明，该框架的准确率为97.69%，漏洞为91.09%，效率为85.10%。

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J. Interconnect. Networks

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