Higher Education Curriculum Evaluation Method Based on Deep Learning Model

Higher education plays an important role in the improvement of people's quality and the development of our country. Therefore, it is necessary to evaluate the higher education curriculum. This paper analyzes and constructs the deep network learning system and self-encoder and evaluates the Chongqing higher education curriculum based on the deep learning network selected by 50 universities in Chongqing. It is found that the numbers of test objects, indicators, and hidden layers have an impact on the evaluation results. At the same time, a classroom teaching model is designed to improve the quality of higher education and solve the problem of insufficient curriculum quality of higher education.


Introduction
As we all know, education has been an important issue of national concern. As the saying goes, knowledge changes destiny and science and changes the world. China has always regarded the construction of higher education as an important reform. Since the founding of the People's Republic of China, the quality of higher education has been continuously improved, and great changes have taken place, realizing the leap from quantitative change to qualitative change, so that the people of the whole country have the right to accept higher education. From the perspective of students, the researcher makes an effective and reasonable analysis of the framework and content of the traditional teaching mode. However, with the development of economy and education, traditional education can no longer meet the needs of society and students [1]. is paper puts forward the scheme of virtual reality and interactive classroom, through testing classroom learning activities and extracurricular learning activities, using special software to realize the teaching quality evaluation of virtual classroom. In existing studies, more than 1000 Norwegian 16-year-old children were investigated to evaluate their motivation, will, and deep learning style [2]. e results show that parents have no significant influence on the assessment items of the testers, while teachers have a significant influence on children's will and deep learning style. erefore, teachers can effectively use these characteristics to correctly guide children's learning will and way. rough the analysis of deep learning model in recent research [3], the advantages, characteristics, and application occasions of SPOC model under deep learning model are understood; it is indicated that deep-learning-based model can be combined in future learning. e changes of the times make the requirements of the society constantly improve [4]; on this basis, this paper puts forward the combination of people's comprehensive development and deep learning and carries out a specific and effective research on innovative education. From the needs of personnel training, the evaluation of the current situation of deep learning, and students' cognition of themselves, this paper makes a detailed analysis step by step. From the meaning of active learning, this paper explains the importance of active learning and its value in the process of students' growth, and then, according to the attitude of the United Nations towards active learning, it summarizes that active learning has become a trend and then puts forward whether active learning can continue to be applied and then makes a detailed analysis of this problem [5]. In the meantime, some researchers analyze the general framework of the basic curriculum of higher education in four different schools on the east coast of the United States [6] and identify and depict the preevent strategies for the sustainable development of communities. e deep learning model is beneficial to the development of related courses, so it can be combined with the deep learning model in the future research of the course. Triangle theoretical model is proposed to systematically discuss the innate conditions of deep learning music education by taking professors and music teachers as the research objects [7]. e model determines the core of education through the study of the relationship among professors, trainees, and research contents. On this basis, the teaching quality is discussed in depth. Research first makes an effective and detailed analysis of the current situation and quality of higher education and then puts forward some questions about the current online teaching methods. en, through a variety of learning methods and models given by learning experts, specific suggestions are given to improve students' deep learning [8]. Based on deep learning, research takes logistics management and engineering talents cultivation as the research object [9], puts forward "flipped learning," and gives its concept. Finally, the model is effectively combined with logistics management engineering courses, which improves the teaching quality of higher education and promotes the progress of logistics management engineering personnel training. Sibbel et al. first make college students all over the world realize their important role in transformative learning [10] and then put forward some problems such as the sustainable development of higher education. rough the effective and high-quality research on the development activities of practical community and professionals, this paper determines the key influence of the sustainable development of education. e QUT electronic files also support the innovative and critical ability of higher education [11]. rough social practice and investigation, the electronic learning programs are explained, which play a vital role in the teaching reform of the whole school. Students are supported to have a correct understanding of the relationship between formal learning and informal learning, so that they can have a correct understanding of the relationship between learning and personal goals. A self-learning design model based on the new media environment is proposed in [12]; this model is to make higher education in ailand more effective in cultivating students' creative thinking. e model makes a general judgment on the framework and content of the model through two survey methods. en the teaching mode and method are determined from three aspects. e combination of network information technology and teaching to realize the deep learning of students in higher education is proposed [13]. is model uses various Internet tools, puts forward the development of network teaching mode, and puts forward the model of mixed teaching mode. en, through the investigation and interview of students who participate in the learning of this model, the information needed to study this model is collected, and then it is found and analyzed that the most significant factors affecting the learning effect of college students are students' subjective will and teachers' input. rough questionnaires, interviews, and other ways, the data and information needed for the research are collected reasonably and efficiently, and these data and information are recorded, observed, and analyzed. Finally, the main factors influencing the loneliness of undergraduate learners are obtained, and some effective solutions are put forward [14]. e main research content of the study in [15] is the positive impact of artificial intelligence on the education industry. Firstly, it makes an effective analysis of the development of artificial intelligence and the education industry through the current situation and then understands the situation of each student and then uses the model to fit to find out the shortcomings of students; then, according to the different shortcomings of different students, teachers can better target teaching. In recent years, with the increasing popularity of machine learning algorithms like NBNs (Naive Bayesian Networks) and Extreme Gradient Boosting, they have been applied in many fields, such as sentiment analysis [16] and pattern recognition and classification [17,18], and, at the same time, machine learning has also been applied to the field of education and achieved good results [19]. However, unlike the classic machine learning methods, deep learning based on neural networks is more popular [20]. erefore, applying deep-learning-based method for the field of education holds great promise.

Current Situation of Higher Education
With the development of economy, China is more and more aware of the importance of higher education. erefore, since the resumption of college entrance examination, China has focused on the development of higher education. After decades of unremitting efforts, the scale of higher education in China has been significantly expanded, and the quality of higher education is also constantly improving. Parents and people from all walks of life attach great attention to the importance of learning.
As can be seen from Figure 1, the number of candidates for the national college entrance examination in China shows an upward trend from 2013 to 2021. Specifically, from 9.12 million in 2012 to 10.78 in 2021, the number of candidates for the national college entrance examination has increased by 1.66 million in these nine years. Among them, the increase from 2018 to 2019 is the most obvious, with an increase of about 740000 people. e upward trend from 2020 to 2021 is the least obvious, with an increase of 70000 people. From 2014 to 2017, the number of candidates for the college entrance examination did not change significantly, there was no obvious upward trend, there was no obvious downward trend, and the biggest change was only 30000.
e results show that, in recent years, the number of college entrance examinations in China has been increasing, which shows that the society attaches more and more importance to higher education. All people want their children to go to university and receive a deeper education. Education is the focus of our country. rough the publicity of the benefits of education and the people's personal experience, the masses 2 Computational Intelligence and Neuroscience of all sectors of our society have very high expectations for higher education. It can be seen from Figure 2 that, from 2013 to 2021, the admission rate of college entrance examination in China first increased and then remained unchanged and finally decreased, with the largest change of 0.41% in these nine years. Since 2013, China's college entrance examination enrollment rate has been expanded, and the undergraduate enrollment rate has increased by 0.03% in five years. e admission rate of 2021 junior colleges dropped to 73%. e analysis results show that the number of people who can continue to study and go to university accounts for about 75% of the total number of applicants, which indicates that the number of people who have received higher education has always remained high, showing an overall upward trend. ey also show that, with the development of economy, more and more parents and students value China's college entrance examination.

e Meaning of Deep Learning.
Deep learning is proposed relative to shallow learning. Shallow learning is an early machine learning, which is simple memory and retelling. Deep learning not only meets the needs of shallow learning, but also requires students to connect individual knowledge to build a learning system, to understand knowledge while maintaining criticism and, most importantly, to apply the knowledge they have learned to practice, as shown in Table 1.
After knowing the difference between deep learning and shallow learning, this paper also makes a research and analysis on the specific process of deep learning. After consulting a large amount of data and the analysts' own experience, it can be seen that deep learning can be divided into seven processes: understanding, memory, copying, tracing, correction, building a system, and comprehensive application.
ese seven processes gradually transit from shallow learning to deep learning; Figure 3 shows the connection between shallow learning and deep learning. It can be seen from the figure that the annual download volume of domestic deep learning model literature is on the rise as a whole and increases exponentially. From 2008 to 2019, a total of 215 articles have been added, with an average annual increase of 18 articles. e growth rate of annual download volume can be divided into three stages. From 2008 to 2012, there was a small increase stage, from one to four. In five years, there were only three, with an average annual increase of less than one; the second stage is from 2012 to 2016, where there was a slow increasing stage, and the overall number of articles increased from 4 to 47. In five years, the number of articles increased by 43, which is about 14 times of the first stage, with an average annual increase of 9. e third stage is the rapid increase from 2016 to 2019, from 47 articles to 216 articles, which has increased 169 articles in 4 years. e number of increased articles in the first stage is 56 times, which is 4 times of that in the second stage, with an average annual increase of 42 articles, which is equivalent to the annual download volume in 2017.     Figure 5.

e Development of Deep Learning at Home and
It can be seen from the figure that the annual download volume of foreign deep learning model literature is on the rise as a whole, with a total increase of 102 articles from 2005 to 2019, with an average annual increase of 7 articles. From 2015 to 2016, the growth rate of annual download was relatively stable, and there was no turning point of sudden increase. e highest upsurge of deep learning model in China was from 2018 to 2019, with an increase of 29 downloads. Comparing the domestic development with that of foreign countries, it is not difficult to find that although the domestic deep learning model is a few years later than that of foreign countries, the annual download increment of domestic journals in recent ten years is greater than that of foreign countries, and the increase speed is far greater than that of foreign countries, so the domestic research on the deep learning model is limited. e research is more specific and extensive than abroad.

Instructional Design Based on Deep Learning Model.
rough the previous analysis, we come to know that deep learning model can make learners learn more effectively. erefore, we need to design an efficient and convenient teaching model, namely, the teaching design under the deep learning model.

Determining the Significance and Objectives of the Development of Higher Education Curriculum.
Higher education should meet people's expectations and the development of the times. First of all, to carry out a course, we should first investigate and understand whether the course is conducive to social development and then whether it is conducive to serving the people. Curriculum objectives are divided into knowledge objectives, that is, the total amount and structure of knowledge that the course needs to impart, and student objectives, that is, the knowledge points that the course needs students to master and understand. Curriculum objectives need to be considered according to the specific situation of all aspects, combine the objectives and deep learning theory, and determine the objectives from the internal and external factors of students. External factors include teaching level, knowledge characteristics, learning needs, and teaching time. e teaching goal model is shown in Figure 6.

Controling and Blocking the Course Contents as a Whole.
After understanding the course objectives, we need to make a general understanding of the whole course. Learners should understand the main knowledge points in each chapter and know the correlation and internal connection between chapters. is makes it convenient for students to establish the knowledge framework of the whole course. On this basis, the curriculum is divided into blocks, and the closely related chapters are divided into blocks, and the chapters with similar content structure are grouped in one block. Computational Intelligence and Neuroscience taking into account the problems of classroom time, knowledge focus, learning environment, classroom interaction, bonus mechanism, lecture requirements, and so forth; in addition, the learning environment includes learning in the computer room and in the ordinary classroom. Classroom interaction includes teachers randomly selecting students to answer questions and teachers directly arranging classroom tests.

Class Time.
e length of classroom time is a direct factor that affects the content of lectures. e longer the time is, the more content of the course can be said.

Knowledge Focus.
If the time distribution of classroom lecture is affected, the key places can spend more time explaining, and the important places can be taken with them.

Learning Environment.
e important factors that affect the quality of classroom teaching and good teaching equipment can save time and make learners more able to master knowledge.

e Mechanism of Bonus Points.
e important factors of adjusting the classroom atmosphere can stimulate students' interest in learning by rewarding the usual time and other forms.

Classroom
Interaction. It can guide students to discuss and help and correct each other.
3.5.6. Lecture Requirements. It is an important factor that affects the whole classroom teaching process. e classroom lectures must be explained according to the requirements, and the basic tasks of each class should be completed.   Computational Intelligence and Neuroscience Classroom lecture can start with a question related to key knowledge and guide learners to discuss and think about each other; and then lectures can be given. In the process of lecture, the place requiring rich key knowledge needs to remind learners and then carry out the classroom test and explanation and arrange homework after class in Figure 7.

Classroom Lecture Design Evaluation Stage.
e evaluation stage is the evaluation of the whole design model, which can detect the performance of the model. At the same time, the comprehensive evaluation is beneficial to the improvement of the design model. In the design of higher education classroom based on deep learning model, we can carry it out from three aspects: judgmental evaluation, acquisitive evaluation, and summative evaluation. Judgment line evaluation is the judgment of learners' understanding ability, thinking mode, and knowledge level. Acquisitive evaluation is the degree of learners' mastery of specific knowledge in the process of curriculum education, which is embodied in the continuous progress of learners in the learning process. Summative evaluation is a comprehensive evaluation of students' specific performance in the course of learning. Figure 8 shows the classroom teaching evaluation model.
It can be seen from the front that the general model of classroom teaching first needs to determine the goal and significance of curriculum education. e content of the course is divided into blocks, followed by the design of the specific content of classroom teaching and finally the evaluation and analysis of the classroom design model. ese four links have a progressive relationship, they are interrelated and inseparable, and they are not simple one-way progressive, but constantly find problems in each link, and then question the previous link, and finally revise, so the whole model can be optimized in different links, so that the model can be more scientific and effective. Figure 9 is the general framework of classroom teaching design.

Establishment of Index
System. e quality of higher education is affected by the educational environment, the quality of care and education, and the development of students. Educational environment includes management mechanism, personnel equipment, and basic equipment; the quality of care and education includes teacher qualification, education management, and curriculum management. Student development includes behavior habits and communication skills in Figure 10.

Evaluation Method of Deep Learning Network.
Deep learning has an input layer, many hidden layers, and an output layer, and only the adjacent nodes have connections. erefore, deep learning can be regarded as a logistic regression model. In addition, the hidden layer is not a single number but includes multiple restricted Boltzmann machines. Figure 11 shows deep information network.
Take v as the visual layer, representing each secondary index B i in the higher education index system, set the number of nodes in the input layer and output layer, and the number of nodes in the hidden layer is 50. e probability distribution of visible layer and hidden layer is Each layer is regarded as a restricted Bohr planter. en the index weight of each layer is calculated: where C is the visual layer and B is the hidden layer.
In the process of quality evaluation, first of all, the indicators at all levels of higher education should be abstracted, and then God's learning network should be established, respectively, which is represented by deep learning network 1 and deep learning network 2. en the relevant tests are carried out.
Deep learning network 1 (D 1 ) and deep learning network 2 (D 2 ) obtained from the above steps can predict the evaluation results qB1test and qB2test of each index.
e total weight value of the index is where ‖ ‖ 2 2 is 2-norm and 〈 〉 represents the inner product symbol.

Self-Encoder.
Self-encoder is a kind of deep learning model, which is a kind of neural network that makes the target input equal to the output. In Figure 12, in order to construct a self-encoder network with a hidden layer, the self-encoder consists of two specific modules, encoding module and decoding module. e encoding module uses a specific mapping to map the meaning of the input vector to Computational Intelligence and Neuroscience the representation vector of the hidden layer due to its particularity.
According to the various operations of the coding segment, the information of Y is mapped to the decoder, and the reconstruction vector about X is output z: Generally, there are n samples in the training sample set. Due to the mapping relationship, each sample has its corresponding potential representation vector, that is, y and reconstruction vector Z. erefore, the parameter estimation of the model can be calculated by using these three vectors.
L is the loss function, which has two forms: square root error and cross entropy, two forms of formula.
When there are many hidden layers, the self-coding model may not find the internal structure of the sample data set. To solve this problem, it is necessary to control the density of hidden layer cell nodes, also known as cell activation value. Calculation of unit average activation value formula is as follows: Penalty term formula of density constraint is     Computational Intelligence and Neuroscience example, combined with the deep learning in this paper, the unique teaching design of this course is designed. According to the deep learning model, the course is divided into determining the course objectives, content segmentation, and classroom lecture design and model evaluation.

Course Objectives.
ere are ten chapters in monetary and financial statistics, but only five chapters need to be explained according to the actual demand. ey are introduction, financial assets, financial stock flow, stock and accounting principles, and monetary statistics framework. e following are the learning objectives of each chapter and the whole course (Table 2, objectives of monetary and financial statistics).

e Teaching Content of is Course Is Divided into Several
Parts. Teaching blocks are conducive to the connection of teaching. Similar knowledge points can be taught in the same way, that is, saving time and labor costs in Table 3.

Lecture Design.
Before lecturing, we can inform the learners of the overall arrangement of the classroom, and then, according to the previous design of the classroom lecturing model, combined with the specific knowledge points of the course. In the process of explanation, we should observe whether the learners understand, follow the train of thought, and think seriously. Figure 13 shows the lecture's flow chart.

Evaluation of Teaching Model.
Teaching model evaluation can detect whether the lecturing model is reasonable, effective, and successful. In the process of continuous evaluation, the problems of lecture model are found and corrected in time. is can make the model more reasonable and more functional. Evaluation can be carried out from all aspects of the lecture model, so that the problem can be accurately modified. It can also be evaluated from the final results. e advantages of this method are direct and convenient. e following are the score of monetary and financial statistics in 2018 without the deep learning model and the score of monetary and financial statistics in 2019 with the deep learning model in Table 4.
It can be seen from Table 4 that the scores of excellent grades increased by 1.2%, the proportion of good grades increased by 6%, the proportion of medium grades increased by 11%, the proportion of passing grades remained unchanged, and the proportion of failing grades decreased by 17.4%. erefore, we can know that deep learning model has a positive impact on the course.
In order to test the current situation of the quality of higher education in China, we take 50 colleges and universities in Chongqing as the test objects and evaluate the quality of education according to the above-mentioned evaluation model. is evaluation is divided into subjective evaluation and objective evaluation, and then the final results of subjective and objective evaluation are synthesized in a linear way. e formula is as follows:  Computational Intelligence and Neuroscience code: Code Code Figure 12: Self-encoder network structure. Chapter two e concept, classification principles, and types of financial assets.
Understand the concept of financial assets; understand classification principles and types.

Chapter three
Financial stock and flow, fixed value of financial assets and liabilities, recording time, aggregate balance, and consolidation.
Master the financial stock and flow and summarize, offset, and merge; understand the fixed value of financial assets and liabilities.
Chapter four e concept of broad money, money and total liquidity, credit and debt.
Master the concept of broad money and the total amount of money and liquidity; understanding credit and debt.

Chapter five
Overview of monetary statistical framework, overview of central bank, overview of companies under other deposits, overview of deposit companies, overview of financial companies.
Master the overview of monetary statistics framework, central bank, deposit company, and financial company; understanding the company overview under other deposits. Overall objectives of the course is course requires learners to master the relevant knowledge of money and finance, such as concepts, models, and the relationship between banks and be able to reasonably combine money and finance with statistical knowledge. 10 Computational Intelligence and Neuroscience e grade correlation coefficient formula is as follows:

Evaluation of Index
System. e index system is an important data source to evaluate the quality of higher education, which affects the quality of higher education. is experiment uses different methods to evaluate the index system of higher education reasonably, including the evaluation method based on deep learning model, the evaluation method based on analytic hierarchy process, and the evaluation method based on entropy analysis. Different results were compared. Table 5 shows comparison of expert identification of evaluation indicators.   As can be seen from Table 5, the expert identifications of the first-and second-level indicators of deep learning model are 97.69 and 98.56, respectively, which are higher than those of AHP, 93.27 and 92.56, respectively, and higher than those of entropy analysis, 95.47 and 94.38, respectively.

e Impact of the Number of Input Indicators on the Performance of the Model.
e more indicators are input, the less information they can provide. e following is the index input line. e influence of sex correlation coefficient is shown in Figure 14. e horizontal axis represents the number of index inputs and the vertical axis represents linear correlation coefficient, where the range is from 0 to 1.

e Influence of the Number of Hidden Layers on Network Performance.
e different number of hidden layers will lead to different performance of deep learning network, as long as it will affect the correlation between the indicators and the training time of the algorithm, so the correlation coefficient and training time of the indicators with different number of hidden layers are analyzed and the training times are compared and analyzed in Figures 15 and  16. e horizontal axis of Figure 15 represents the number of hidden layers, and the vertical axis represents correlation coefficient; in Figure 16, the horizontal axis and the vertical axis represent the number of hidden layers and the training time (seconds) of the proposed model, respectively.

e Influence of Different Test Objects on the Results.
Six test objects are randomly selected from the sample, and the results of the two evaluation methods of the six test objects are obtained, which are the comparison of the text method results and the subjective evaluation results, and we   Computational Intelligence and Neuroscience 13 obtain the linear correlation coefficients of the results of the two evaluation methods, as shown in Table 6. According to the test of different test objects and different evaluation models, we can know that the deep learning model is due to two other methods. It can be explained that the deep learning evaluation method can be used in the analysis of higher education curriculum and is also conducive to other fields of analysis in Figure 17.
It can be seen from Figure 17 that the training time of the deep learning model is significantly lower than those of the other two methods, indicating that the deep learning model can iterate more times in the same total training time, so the accuracy of the model is higher than those of the other two methods.
It can be seen from the figure that the accuracy of the analysis method of the deep learning model is significantly higher than those of the other two methods, indicating that the evaluation of higher education courses by the model is closer to reality and can better reflect the current education situation of colleges and universities in Chongqing.
According to Table 6 and Figures 17 and 18, the in-depth learning model has high linear correlation coefficient, short training time, and the highest test accuracy. erefore, the in-depth learning model is selected to analyze the higher education in Chongqing.

Conclusion
With the gradual popularization of higher education in China, how to evaluate the quality of higher education has become a hot research topic for scholars at present. e accumulation of more and more educational data and the development of educational technology provide the possibility for rational evaluation of higher education. In this research, we constructed the deep learning network model and self-encoder model and then evaluated the education of 50 colleges and universities in Chongqing. is evaluation only combines the deep learning network. In addition, the lecture model is constructed and applied in the course of monetary and financial statistics. Different from traditional methods such as expert rating and peer evaluation, the model based on quantitative analysis avoids the evaluation error caused by human subjectivity, making the results more objective and real and more applicable. Compared with the classic methods such as Analytic Hierarchy Process and entropy analysis method, the experimental results indicate that the proposed model has higher accuracy and shorter training time; therefore, our proposed method provides a new and effective way to evaluate the higher education in China.

Data Availability
e experimental data used to support the findings of this study are available from the corresponding author upon request.