College English Smart Classroom Teaching Model Based on Artificial Intelligence Technology in Mobile Information Systems

of extracted materials Narrative in different languages English translation Language formalization Natural language processing Formalize calculations Computer implementation Discourse Text Speaking purpose significance


Background and Significance of the Research. College
English courses are the public basic courses in higher education in China. e quality of college English teaching and student learning effects affect the other teaching activities directly [1]. e teaching reform of college English courses has been implemented for many years, but college English teaching based on traditional teaching models has encountered challenges in terms of student participation and teaching effects. It provides new methods and tools for education and teaching and drives the fundamental transformation of education and teaching mode [2]. rough the in-depth integration and innovation of artificial intelligence technology and college English classroom education and teaching, the smart and efficient classroom teaching can be created, and good value orientation and ideological quality of students can be cultivated better. Based on artificial intelligence, smart classroom teaching with smart technology makes smart education possible [3]. e cultivation of English talents in the college English smart classroom based on artificial intelligence is related to the rapid development of economy and the progress of science and technology.

Related Content.
With the increase of data availability and the latest development in artificial intelligence, developers, providers, and regulators have brought unprecedented opportunities and major challenges in the education field. Hadiana A selected ten mobile information system samples about the education system as specimens suitable for designing the interface of the parenting information system [4]. Multivariate statistical analysis (such as factor analysis (FA) and partial least squares (PLS)) was used to process data questionnaires collected from thirty respondents [5,6]. rough the research, he found that when designing the user interface of a mobile parent information system, two important emotional factors must be considered, namely, interest and benefit [7,8]. But these two factors cannot determine everything. Nowadays, novel profound learning and transfer learning technologies are transforming any data related to people into educational data; for example, transform simple facial pictures and videos into powerful data sources for predictive analysis [9]. Polina provides an overview of the next generation of artificial intelligence and blockchain technology [10] and proposes innovative solutions that can be used to accelerate the research of teaching models and enable learners and teachers to understand their personal data and pass personalized teaching plan with new tools for continuous learning monitoring. However, there may be errors in monitoring [11,12]. Myeongae understands students' development scores on the platform through modules that meet local wisdom [13,14]. He used 10 group experiment students and 30 limited field experiment students in his research. His research results show that, after using the local intelligence module for learning, the academic score has increased [15,16]. His research indicates that the academic scores in experimental classes and control classes are getting higher and higher through local intelligence modules. However, local smart modules cannot be widely used.

Main Content and Innovation.
is article mainly analyzes the combination of artificial intelligence technology with college English smart classroom to achieve a smart teaching mode. e innovation of this article lies in the combination of artificial intelligence technology and college English smart classroom, which has become an intelligent teaching mode and guided the development direction of intelligence, precision, and individualization [17].

Principles and Methods of Artificial
Intelligence Teaching

Principles of Artificial Intelligence
Teaching. e application of artificial intelligence in the field of education (AI-ED for short) produced smart teaching in the early stage [18,19]. e domain model emphasizes the subject of learning; the educator model refers to an appropriate and effective teaching method [20]. is model shows the interaction of computers or machines with learners to determine the most interesting teaching activities and interactions [21,22]. As the system is constantly accumulating and changing data, the learning behavior and performance of learners in the classroom will be continuously absorbed and fed back by the learner model [23]. e teaching model is shown in Figure 1.
According to the learning needs and personal learning abilities of learners, the most appropriate content is selected and sent to students or teachers [24,25]. Besides that, the continuous analysis of students' classroom performance (such as the state of students learning in class and competition results) is used to provide evaluation and effect feedback, so as to assist students to have a continuous and stable effect in their learning progress [26,27]. With artificial intelligence technology, the continuous analysis of the learning results given by the system can be presented to teachers and students [28]. Similarly, the convenience and efficiency brought by these artificial intelligence technologies can help teachers understand students' learning behaviors more quickly, effectively, so as to improve students learning competence [29,30].

Questionnaire Survey Method.
e questionnaire survey method is adopted to analyze learners' learning effects and self-evaluation before the experiment in this research. In addition, after the teaching experiment, the investigation of learner's satisfaction with teaching model and learners' evaluation of the smart classroom teaching effect can be carried out.

Experimental Method.
Two classes were selected as the experimental class and the control class, respectively, in this study. e experimental class used smart classroom teaching model based on artificial intelligence technology in this paper, and the control class adopted the traditional teaching method. Combined with the comprehensive evaluation before and after the experiment, the paper analyzes the results of the implementation of the smart classroom teaching model designed in this paper in college English teaching, confirms the teaching effects, and further discovers the deficiencies of the teaching model.

The Design of College English Smart
Classroom Teaching Model Based on Artificial Intelligence Technology

Construction of Smart Classroom Teaching Mode.
is paper mainly studies the college English smart classroom teaching model based on artificial intelligence technology. With the support of artificial intelligence technology, teaching activities are carried out during the whole class. e framework design of the college English smart classroom teaching model based on artificial intelligence technology is shown in Figure 2. e mobile Internet supports real-time interaction between teachers and students. e classroom is equipped with movable tables and chairs. Resources can be transmitted to students before class through the Internet. Teachers can focus on interaction and adjust the classroom layout. When discussing issues, students can move tables and chairs to make a circular layout, which is flexible and convenient for discussion. Group members can discuss questions, draw mind maps, and so on to enhance their communication and interaction with each other through mobile devices.

Application of Artificial Intelligence Technology to College
English Smart Classroom 3.2.1. Language Understanding. In English teaching, the practice of oral English is very important. Natural language understanding is the study of how to enable computers to understand and generate human language and achieve the purpose of human-computer natural interaction [31]. Natural language understanding is mainly divided into two categories: verbal language understanding and written language understanding. e process of natural language understanding is shown in Figure 3.
Some researchers summarize the application scenarios of natural language understanding in the education field into four aspects: ① text analysis and knowledge management, such as machine correction work and machine translation; ② natural interaction interface of artificial systems, such as speech recognition and synthesis systems; ③ application of corpus in educational tools, such as corpus and its retrieval tools; ④ application research of English teaching, such as educational games for English learning. Natural language understanding will bring new ways and methods to the learning of English learners in areas such as machine understanding and question answering systems. e question and answer system can act as a virtual assistant to solve students' individualized problems, answering and tutoring students' questions in a natural interactive way [32,33].

Pattern Recognition.
Pattern recognition is to make the computer recognize a given thing. It mainly studies how computers recognize natural objects and so on so that computer simulations can realize human pattern recognition capabilities, such as vision, hearing, touch, and other intelligent perception capabilities. e pattern recognition system mainly consists of four parts: data collection, preprocessing, feature extraction and selection, and classification decision-making. e composition is shown in Figure 4.
In college English teaching, the premise of providing learners with personalized learning support services is to collect learners' voice, emotion, and other physical signs data. By mining and analyzing these data, it provides basic data model support for subsequent personalized learning. e application of pattern recognition in teaching mainly includes the following: in the oral English training class, the spoken language of recognized student can be compared with the standard spoken language to guide the student's spoken language learning, intelligently identify the learning state of the learners, and provide learning help and encouragement timely. Learners can search for learning resources with their voice and so on.

Learning Analysis.
Learning analysis is a new concept derived from the rise of big data and data mining. Big data is the basis for learning analysis, and learning analysis can realize the value of big data. e learning rules are designed according to Ebbinghaus memory rules, which show the laws of knowledge forgetting. e technique of modeling is applied to the Ebbinghaus forgetting laws, among which the one-chamber model and the two-chamber model are widely used [34].  (1) One-Chamber Model. Regarding the human brain as a room, after a certain amount of Z material is memorized, the amount of memory remaining after time t is X(t). Assuming that the speed of forgetting is constant i, we can get e curve obtained by this function is consistent with the Ebbinghaus forgetting curve. Plot the measured data and use the least square method to determine a straight line to obtain the specific value of y, which can be expressed as In formula (2), one-half of "t" is a constant, which describes the time that the memory retains half of the original amount, which is called the half-memory period. "t" and "y" are both used to reflect the strength of memory ability. e larger "t," the stronger the memory capacity of this kind of material and the smaller the value of "t" at this time.
(2) Two-Chamber Model. According to formula (1), people have proposed a two-chamber model, which regards the brain as two compartments (compartment 1 and compartment 2), which store short-term memory and long-term memory respectively. At time "t," the memory of compartment 1 and compartment 2 is set to X 1 and X 2 , respectively, and then Among them, "I" is the forgetting rate constant. Considering the initial condition t � 0, the solution is where α and β are determined by the following formula: or α � ����������������� � Make en, formulas (4) and (5) are reduced to According to the laws of memory forgetting, we can get a model that is very consistent with the Ebbinghaus forgetting curve: We can get Formula (11) shows that the amount of memory is only related to the forgetting speed of the specific content; that is, the forgetting speed "V" is a variable, not a constant, which conforms to the characteristics of human memory. In this model, the only parameter to be determined is "V," which is the initial rate of long-term memory forgetting. e purpose of learning analysis is to optimize the learning process, which generally includes four stages. e process is shown in Figure 5.
As shown in Figure 5, the four stages of optimizing the learning process are describing learning results, diagnosing the learning process, predicting the future development of learning, and intervening in the learning process.

College English Smart Classroom Teaching Goals.
is research draws on Bloom's taxonomy of educational goals in the cognitive domain to design teaching goals. Bloom's teaching objective classification system is composed of a "two-dimensional model," which is knowledge dimension and cognitive process dimension. e intersection of the knowledge dimension and the cognitive process dimension constitutes a grid of the classification table, which is shown in Table 2.
In the knowledge dimension, Bloom divides knowledge into four categories: factual knowledge, conceptual knowledge, procedural knowledge, and metacognitive knowledge.
Because the topic of this paper is in line with the part of factual knowledge and other knowledge categories are relatively large, this paper only discusses factual knowledge. In the cognitive process dimension, Bloom divides the cognitive process into six levels from high to low, which is shown in Figure 6.
From the perspective of cognitive process, Bloom gave a more detailed verb effect checklist, which is helpful for the classification and analysis of goals in teaching practice as shown in Table 3.
According to Bloom's taxonomy of educational goals, the teaching goals of college English smart classroom based on artificial intelligence in this research are designed: (1) Memory: recognize and write applied vocabulary for college English majors. Identify the meaning of the same word in different sentences (2) Understanding: summarize the content of college professional articles and translate college professional articles (3) Application: activities related to college English majors (4) Analysis: compare articles for college English majors (5) Evaluation: make relevant assessments based on students' English scores (6) Creation: create some more interesting ways to learn English in the classroom

Specific Implementation.
According to the design of the previous teaching model, this paper conducts the traditional college English teaching model for the control class, and the experimental class conducts a one-and-a-half semester college English smart classroom teaching. e whole textbook is arranged according to the same unit structure. We only conduct smart classroom teaching in listening, speaking, reading, and writing of each unit of the experimental class. In the experimental class, teachers carried out three major teaching activities: curriculum introduction, independent listening and speaking, and discussion and exchange. e teaching activity frame of the experimental class is shown in Figure 7. As shown in Figure 7, the materials before the class should be reading materials of each unit, and the microvideos of reading materials are used for background learning in class to lead in topics through enlightenment, inquiry, and guidance, which can broaden students' background knowledge of the topic, understand the students' cognition of related knowledge, and pave the way for the subsequent development of listening activities. e teacher sends the listening materials and the learning tasks to the smart platform. Students adjust the speed of records to complete the task according to their own rhythm. e system gives immediate feedback on the results. e whole process of autonomous listening is as follows: after the students listen to the records ⟶ complete the exercises ⟶ the system  gives immediate feedback ⟶ then students listen to the records again. At the same time, teachers will give guidance and illustration through pictures and texts, which deepens students' understanding of English reading materials again. Teachers can create situations to guide students to participate in communication activities. Here, the importance of thinking is emphasized and students are required to think for a minute. In order to further deepen learning, teachers should set some topics related to real life so as to stimulate students' motivation of language expression. At the same time, teachers may assign man-machine dialogue tasks, so as to make every student open his mouth to speak. After class, teachers should encourage students to participate in the evaluation and error-correction activities. After the two stages of listening and communication, students have enough knowledge to input. And then, make students participate in other activities so as to put what they have learned into applications, for example, doing some speaking practice first and then writing practice. e more knowledge they acquired, the higher-level cognition can be promoted.   Realize personalized learning and promote learning performance. Recommend adaptive learning resources and learning tasks based on individual characteristics such as learning interest and ability to improve learning efficiency.

Teacher
Grasp the overall situation of teaching and get teaching feedback. Analyze students' learning performance and predict student performance; find students with learning difficulties and implement teaching interventions; reflect on teaching methods and discover learning patterns.

Manager
Evaluate teachers' teaching performance, improve management system, and scientifically allocate educational resources. Course developer Support course or software developers to accurately evaluate and maintain online courses and teaching systems.

Teaching Evaluation. From focusing on teachers'
"teaching" to students' "learning," teachers and students should cooperate with each other and make progress together. erefore, the teaching evaluation scale is shown in Table 4.  Table 5. It can be seen from Table 5 that the score difference between the experimental class and the control class before the experiment is obvious. After the experiment, the average score increased by 10 points, while the average score of the control class only increased by 3 points after the experiment. Regarding the passing rate of classroom teaching mode experiment, the experimental class has increased by 29% after the experiment, while the control class only increased by 10%. erefore, the conclusion can be arrived that the teaching model of college English smart classroom based on artificial intelligence technology can improve students' learning abilities.

Comparison of Student Self-Evaluation before and after
Implementation. For students' learning effects, besides the evaluation of learning performance, it is necessary to consider their interest, participation, confidence, the degree of understanding and application of knowledge, and the awareness of cooperation and communication in learning throughout the learning process. e main object of evaluating learning effects is not only teachers but also parents and students themselves. Student self-evaluation can not only mobilize their learning enthusiasm but also promote their self-education.
erefore, in addition to teachers' evaluation of students' performance, students should also be encouraged to make self-evaluation of their own learning.
is paper conducted a questionnaire survey on the experimental class through the above-mentioned aspects and conducted a survey on the experimental class before and after the implementation of smart college English teaching model to analyze the changes in the learning effect of the students. e results are shown in Figures 8 and 9.
rough the comparison of Figures 8 and 9, it is found that the students' self-evaluation of the learning effect in the experimental class has undergone significant changes before and after the experiment. First of all, from the two aspects of students' interest in learning, participation, and self-confidence, the number of students who like to take English classes has increased from 20% before the experiment to 60% after the experiment, a significant increase, and only 10 students dislike it; students who can actively participate in classroom activities have also increased from 30% before the experiment to 80% after the experiment; students who are confident of learning English well have increased from 30% before the experiment and to 80% after the experiment, but still 10% of students are not confident.
is shows that English learning has become more interesting; students' interest has been aroused after adopting the smart college English classroom teaching model. Secondly, from the perspective of understanding and mastery of knowledge, the number of students who can basically  understand what the teacher said has increased from 40% before the experiment to 70% after the experiment. e understanding and mastery of "Mute English" has improved significantly. Finally, from the perspective of communication and cooperation with others, 70% of the students did not have the habit of cooperative learning before the experiment. After the experiment, this data dropped to 10%. is is because when the smart classroom teaching mode is adopted, teachers often assign group cooperative learning tasks before and after class, and the classroom often adopts cooperative learning teaching methods and task-based teaching methods. In this way, students not only improve their language communication skills but also cultivate a sense of teamwork.

Teachers' Teaching Effect.
Because the main object of the teaching model is students, the effect of its implementation should mainly depend on the students' satisfaction with the course. erefore at the end of the semester, we designed a questionnaire concerning English course satisfaction. e questionnaire is divided into three parts: teaching content, teaching mode, and overall teaching evaluation. Each item reflects the teaching effect through teachers and students' answers, which reflects the actual teaching effects. e main content of the questionnaire includes the function and interest of teaching contents, the effect of teaching methods on language communication ability, and students' overall evaluation of the teaching mode. Figure 10 shows the results of the students' satisfaction with the course of experimental class.
As shown in Figure 10, from the perspective of teaching content, in terms of the role of teaching content, 70% of students believe that the content of learning resources released by teachers on the smart platform is helpful for English learning, but 20% of students are not sure, and 10% of students hold the opposite opinion. From the perspective of teaching mode, in terms of English language communication skills, 65% of students believe that their English language communication skills have improved, 20% of students are uncertain, and 15% of students believe that they have not improved. From the overall evaluation of teaching, 90% of students said that they liked this teaching model, 5% of students were not sure, and only 5% of students did not like this model. erefore, although most students like the smart classroom teaching model, some students still dislike it. Future research should explore why some students do not like it so as to further improve the teaching model. However,  the overall data shows that the teaching model is generally helpful to improve students' autonomous learning ability, helps students acquire and expand more English language knowledge, promotes teacher-student interaction, and improves English language communication ability to a certain extent.

Summary
Artificial intelligence is an intelligent system that can perform tasks in complex and changeable environments without special manual intervention.
is paper mainly studies the teaching mode of smart college English classroom based on the artificial intelligence technology in the mobile information system. e questionnaire surveys and experimental methods were applied in the research to conduct teaching experiments and verify the reliability of this teaching model.

Data Availability
No data were used to support this study.

Conflicts of Interest
e authors declare no conflicts of interest in this study.