Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network

Reading and writing are the foundations of English learning as well as an important method of instruction. With the advancement of network technology and the onset of the information age, an increasing number of students have lost interest in traditional English reading and writing instruction in th...

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Main Author: Qi Shan
Format: Article
Language:English
Published: Hindawi-Wiley 2021-01-01
Series:Wireless Communications and Mobile Computing
Online Access:http://dx.doi.org/10.1155/2021/8020461
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spelling doaj-501502e5288f44ecb5ef5173adc0d68d2021-09-27T00:51:42ZengHindawi-WileyWireless Communications and Mobile Computing1530-86772021-01-01202110.1155/2021/8020461Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural NetworkQi Shan0Jiangsu Union Technical InstituteReading and writing are the foundations of English learning as well as an important method of instruction. With the advancement of network technology and the onset of the information age, an increasing number of students have lost interest in traditional English reading and writing instruction in the classroom. Flipped classrooms have emerged as a result of this situation and have become the focus of research in one fell swoop. As a result, flipped classroom research at home and abroad has primarily focused on the theory and practical application of flipped classrooms, and flipped classroom application practice is primarily based on the overall classroom, with few separate discussions on the effects of flipped classroom students’ self-learning. As a result, we developed a recurrent neural network-based intelligent assisted learning algorithm for English flipped classrooms. There are two main characteristics of the model. First, it is a gated recurrent unit based on a variant structure of the recurrent neural network. The double-gating mechanism fully considers the context and selects memory through weight assignment, and on this basis, it integrates the novel LeakyReLU function to improve the model’s training convergence efficiency. Second, by overcoming time-consuming problems in the medium, the adoption of the connection sequence classification algorithm eliminates the need for prior alignment of speech and text data, resulting in a direct boost in model training speed. The experimental results show that in the English flipped classroom’s intelligent learning mode, students explore and discover knowledge independently, their enthusiasm and interest in learning are greatly increased, and the flipped classroom’s teaching effect is greatly improved.http://dx.doi.org/10.1155/2021/8020461
collection DOAJ
language English
format Article
sources DOAJ
author Qi Shan
spellingShingle Qi Shan
Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network
Wireless Communications and Mobile Computing
author_facet Qi Shan
author_sort Qi Shan
title Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network
title_short Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network
title_full Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network
title_fullStr Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network
title_full_unstemmed Intelligent Learning Algorithm for English Flipped Classroom Based on Recurrent Neural Network
title_sort intelligent learning algorithm for english flipped classroom based on recurrent neural network
publisher Hindawi-Wiley
series Wireless Communications and Mobile Computing
issn 1530-8677
publishDate 2021-01-01
description Reading and writing are the foundations of English learning as well as an important method of instruction. With the advancement of network technology and the onset of the information age, an increasing number of students have lost interest in traditional English reading and writing instruction in the classroom. Flipped classrooms have emerged as a result of this situation and have become the focus of research in one fell swoop. As a result, flipped classroom research at home and abroad has primarily focused on the theory and practical application of flipped classrooms, and flipped classroom application practice is primarily based on the overall classroom, with few separate discussions on the effects of flipped classroom students’ self-learning. As a result, we developed a recurrent neural network-based intelligent assisted learning algorithm for English flipped classrooms. There are two main characteristics of the model. First, it is a gated recurrent unit based on a variant structure of the recurrent neural network. The double-gating mechanism fully considers the context and selects memory through weight assignment, and on this basis, it integrates the novel LeakyReLU function to improve the model’s training convergence efficiency. Second, by overcoming time-consuming problems in the medium, the adoption of the connection sequence classification algorithm eliminates the need for prior alignment of speech and text data, resulting in a direct boost in model training speed. The experimental results show that in the English flipped classroom’s intelligent learning mode, students explore and discover knowledge independently, their enthusiasm and interest in learning are greatly increased, and the flipped classroom’s teaching effect is greatly improved.
url http://dx.doi.org/10.1155/2021/8020461
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