Research on Interactive Content Development of Vocal Music Teaching in College Music Courses in the New Media Era

Vocal music teaching is high-level, comprehensive and popular, and it is an art course as well as a cultural course, which is of promoting significance for developing students’ thinking ability, improving students’ moral literacy, and cultivating students’ comprehensive ability [1–3]. However, due to the low cognition of students’ knowledge of vocal music, they are not able to better know the connotations of vocal music works, which leads to the insufficient quality of vocal music teaching in colleges and universities. Therefore, in the context of the new media era, teachers should change the concept of teaching, develop interactive teaching content [4–6], take students as the teaching guide, enrich the form and content of vocal music teaching, lead students to discover the beauty of vocal music works, cultivate students’ sentiment, and then enhance students’ ability to appreciate vocal music works [7–8].

Interactive teaching mode is a teaching mode in which the teacher acts as a guide, students become the main body of teaching activities, and teachers and students can fully interact with each other. Teachers use new media teaching resources to guide students to communicate and discuss in class, which not only enriches the content of vocal music teaching but also enhances students’ learning initiative and learning efficiency [9–12]. Interactive teaching can make full use of the university’s rich technology, information and other resources for teaching to provide up-to-date vocal music teaching materials, technology and equipment to students through classroom interaction. It can be more intuitive to feel the atmosphere of vocal music teaching [13–15] through the teacher’s real-time explanation of the theoretical knowledge of vocal music so as to deepen the understanding of vocal music and to promote the students in the comprehensive development of vocal music teaching [16–17].

Literature [18] based on computer-aided technology to create a multi-sensory dimension of the virtual reality system, and the combination of hardware and software to build a virtual environment for students to carry out vocal music teaching and training, is conducive to improving the effectiveness and efficiency of vocal music teaching. Literature [19] discusses the application of network multimedia technology in vocal music teaching and the current situation through the analysis of network multimedia technology in the application of vocal music teaching problems stemming from the complexity of the production of the PPT form. Literature [20] demonstrated that the decision tree method is used in the vocal music education system and classifies the students according to the model, in which the teacher can obtain the students’ vocal music learning status so as to formulate a personalised teaching strategy. Literature [21] conducted a follow-up survey of graduates to find out the problems in vocal music teaching. Innovative teaching models for quality vocal music programmes in higher education were examined, highlighting two factors that cannot be missing in the teaching of the programme, namely passion and modern media.

The literature [22] not only discusses the use of multimedia, artificial intelligence and other technologies in vocal music education but also analyses the impact of these technologies on teaching effectiveness. Suggestions for improving the quality of teaching are listed, including innovative teaching methods such as interactive teaching and interdisciplinary integration. Literature [23] in order to realise a multimedia vocal music teaching system in order to promote teaching reform. The design of the multimedia vocal music teaching system was completed through the introduction of theory, framework design and other steps, and the experiment proved that the construction of a multimedia vocal music teaching system is conducive to the convenient and efficient teaching of vocal music. Based on the backwardness of teaching methods and single teaching content in vocal music teaching, literature [24] puts forward the optimisation measures such as introducing modern educational technology to innovate the teaching methods, extending the teaching content and strengthening the teaching practice, which can help to improve the effectiveness of vocal music teaching through the implementation of these measures. Literature [25] emphasises the important role of computer technology in the teaching of vocal music, which not only creates a good music teaching environment but also helps to increase students’ interest in learning. In addition, rich teaching resources can help improve students’ cognition and promote the development of vocal music teaching. Literature [26] developed a virtual reality vocal music teaching system to solve the errors in traditional vocal music teaching. It is pointed out that multimedia technology is an important way to improve the quality of vocal music teaching, and it is also proved through experiments that this method effectively promotes students’ learning and interaction. Literature [27] proposes optimisation initiatives in terms of innovative teaching methods and strengthening the construction of teachers and verifies the feasibility of optimisation initiatives in case studies. In addition to this, the implementation and evaluation of the optimisation initiatives are also discussed, aiming to provide references for improving vocal music teaching.

This study takes vocal music teaching in college music courses as the research object and explores the interactive development of vocal music teaching from the perspective of new media. To this end, this paper provides an in-depth analysis of the interactive performance means of new media technology so as to explore the integration path of new media interaction and vocal music teaching. According to the cultivation goal and teaching demand of vocal music teaching, this paper optimises the development of interactive content of vocal music teaching from the cultivation core of vocal music teaching and proposes a vocal music teaching mode based on the support of new media technology. Moreover, this paper constructs the evaluation index system of vocal music teaching effect by using the hierarchical analysis method and factor analysis. In order to verify the effect of vocal music teaching in this paper, the teaching experiment is conducted in X college to explore the teaching significance of the vocal music teaching mode in this paper.

2

Optimising the interactive development of vocal music teaching from a new media perspective

2.1

Interactive means of expression based on new media technologies

Through 3D art, video installations, interactive and real-time installations, electronic installations, networks, and virtual spaces, new media interactive art integrates artistic expressions into electronic media systems and presents them in a multifaceted way, bringing new experiences to people.

The development of content for interactive new media is an interdisciplinary process that encompasses many factors. It is often summarised as a five-stage process involving linking, integration, interaction, transformation and development, which is the same as the viewer’s experience. The viewer’s connection to the content, and thus integration into the content and interaction with the systems and environments within it, results in the transformation of the content into the viewer’s consciousness and, ultimately, the emergence of entirely new images, relationships, thoughts, and experiences. New media interaction is stimulated by providing timely guidance and feedback.

An important aspect of this type of interaction is the enhancement of the viewer’s perception through technological means that blur the boundaries between content and reality, confusing the viewer ’s perception of the real environment and thus creating a sense of immersion. Its manipulability plays an important role in facilitating interaction, generating different feedback as the viewer changes, allowing the viewer to perceive the content more clearly. As shown in Figure 1, new media interaction means include sound interaction, light and shadow interaction, and dynamic interaction.

In this paper, the teaching of vocal music in college music courses is mainly based on sound interaction, and the combination of sound and new media interaction is an important aspect to be considered in this paper. An immersive sound, visual device is a combination of space and sound and visualisation, converging into a perceptual field, in which sound is used as an interactive means of information transfer. In the interaction process, sound not only serves as a mediator of input but is also known as the output presentation of its process display. Sound interaction can make the viewer produce mental images, thus affecting their inner emotions, establishing a connection link in the viewer’s intuition and action, thus achieving a sense of immersion and interaction.

Light and shadow interaction is the most intuitive impact on the viewer through the brightness of light and shadow and the choice of colours. The viewer will perceive different information with different light and shadow. For example, bright and highly saturated light will create a positive and lively emotional experience, while dim and low saturated light will bring a quiet and low experience. The interaction of light and shadow can make the elements in the space more flexible, and different light effects will also make the material in the space present different textures. The use of light and shadow intuitively stimulates the viewer’s visual perception, creating impact and shock, thus blurring the sense of spatial boundaries.

Dynamic interaction is a process that involves two or more individuals communicating and cooperating and ultimately outputting the same result. Dynamic interaction is mainly reflected in the viewer interaction. The content of the work produced by the dynamic effect and its form will be due to the viewer’s actions and constant change. This means of interaction in the viewer also becomes part of the interactive content, breaking the sense of the boundaries of the work.

2.2

Vocal Music Teaching Mode Based on New Media Interaction Optimisation

2.2.1

The Cultivation Core of Vocal Music Teaching in the New Media Era

The core literacy of college students’ development is divided into three major areas, such as cultural foundation, independent development, and social participation, in addition to corresponding to six dimensions, namely, humanistic heritage, scientific spirit, learning to learn, healthy life, responsibility, and practice and innovation. The structural system of teaching core literacy ranges from the macroscopic summary of the three domains to the key competencies and necessary character of each branch point leading to the self-development of the individual and the healthy development of the society, presenting the genes and seeds needed for lifelong development and sustainable development of human beings, which is precisely the foundation and possibility for their further growth.

With the guidance of the concept of core literacy parenting in the new media era, the concept of scientific core literacy in the music curriculum has gradually been put forward. This concept, which elaborates on the nurturing value of the music discipline from three aspects: aesthetics and perception, artistic expression, and cultural understanding, has aroused multidimensional thinking in the academic community about the discipline’s nurturing. Thinking about the unique nurturing characteristics and strengths of the music discipline, the core literacy of the music discipline can be regarded as an intermediary for reaching the core literacy of student development, which serves to realise the general core literacy for the comprehensive development of human beings, and which explains that the music discipline can not be detached from its educational significance, social significance and instrumental attributes.

The connection between core literacy and students’ educational development in the music discipline is shown in Figure 2. Under the core literacy system, different disciplines bear the important responsibility of developing students’ core literacy, while at the same time reflecting their unique contribution to nurturing. The connection between core literacy and music core literacy can first be analysed by visualizing the three major areas, six dimensions and 18 basic points contained in core literacy and the three dimensions contained in the core literacy of the music discipline, from which the external relationship between the two can be basically presented, i.e., “aesthetic perception” and humanistic care, humanistic care, humanistic accumulation, and aesthetic interest are related in content. “Artistic Expression” can be related to Social Responsibility because the main content of the first stage is practical ability. “Cultural Understanding” is mainly related to national identity, social responsibility and international understanding. All in all, the basic points of the core literacy and the three aspects of the core literacy of the music discipline form an eight-point content correlation, and it can be seen from the correspondence between the core literacy expression that has already been subjectified in the discipline of music and the core literacy expression that has a macroscopic “transdisciplinarity” that the music curriculum bears the important task of cultivating the core literacy of the students.

From the connotation and extension of core qualities, the cultivation of students’ “essential character” and “key abilities” should be carried out throughout the teaching of various disciplines, reflecting the contribution of the disciplines to the overall nurturing of human beings, i.e., the direction of nurturing people through disciplines under the leadership of the “people-centred” principle. This is the “people-centred” direction of subject education. The “interdisciplinarity” implied in the core qualities guides students to mould a person into a person with good “outward appearance” and “spiritual looks”, stable mental qualities, and a way of thinking that embodies perception and expression. The way of thinking reflects the shadow of perceiving, expressing and understanding music. Through the study of music, students will be able to create new wisdom in the practice of life and will be prepared for the development of their general competencies (interdisciplinary competencies) and their learning abilities. It is important and necessary to focus on the dimension of core literacy, to explain the significance and value of the core literacy of the music discipline on students’ development based on the nurturing value of the discipline, and to understand the unique nurturing value of the music discipline under the deep understanding of the meaning of the disciplinary view of education, which is also the foothold for the optimisation of the development of the interactive content of the vocal teaching in the music curriculum in this paper.

2.2.2

Interactive Content Development and Pedagogical Integration for Vocal Music Teaching

In vocal music teaching, the teacher-centred teaching philosophy severely binds students. The interaction mode is single, and students participate in the class passively. Although teachers put much effort before class, the actual effect is not satisfactory. Under the traditional interactive teaching mode of new media, teachers are involved in training related to new media technology and unilaterally indoctrinate students, which can only achieve little in the end.

Therefore, the optimisation of the new media interaction and the improvement of the teaching mode in the music discipline is especially crucial. The new media has the characteristics of intuitive image, timely feedback and immersion interaction, and the reasonable use of new media technology creates the conditions for the realization of interactive vocal music teaching. Teaching is a combination of “teaching” and “learning”, and we can’t ignore the teachers’ teaching work or the student’s learning situation. We should take students as the centre, understand their knowledge base, and collect and sort out their information. Teachers can flexibly design teaching links in the classroom and use new media technology to create interactive teaching situations so that the classroom can be revitalised and energised. Developing new pathways in students’ brains, cultivating students to think from different perspectives, learning a variety of artistic expressions, and improving IT skills and media literacy.

Based on the new media interactive content optimisation of the vocal music teaching mode shown in Figure 3, vocal music learning can be roughly divided into technical training, functional training, music aesthetic training, language learning, accompaniment courses and other courses. Therefore, the interactive content development and optimisation of this paper are diversified and targeted to the needs of vocal music teaching, which is mainly divided into the interactive optimisation of course content and the interactive optimisation of teacher-student communication. Among them, the interactive optimisation of course content is mainly reflected in the use of new media technology to create interactive teaching situations, so that the classroom is renewed with new vigour and vitality. The interactive optimisation of teacher-student communication is embodied in the cultivation of teachers’ ability and the mobilisation of students’ enthusiasm and interest.

3

Evaluation of vocal music teaching optimised for interactive content development

3.1

Evaluation index system construction of vocal music teaching effect

3.1.1

Evaluation methods for vocal music teaching

Classroom teaching evaluation is to allow a specific evaluation subject, using scientific and reasonable evaluation methods, to make objective judgements on the whole process of classroom teaching, including teachers’ teaching and students’ learning, to reflect and diagnose the current situation of teaching, and to play an important role in supervising the process of teaching, assessing the effectiveness of teaching, guiding the implementation of teaching and promoting the reform of teaching. The most important of these is the assessment of students’ learning effects and teachers’ overall teaching behaviour, using the results of the assessment to reflect the quality of teaching and learning, and thus promoting the reform of teaching content, teaching methods and teaching tools.

In teaching evaluation, indicator weights are often assigned through hierarchical analysis (AHP), factor analysis and entropy value method.

Hierarchical analysis hair is a multi-level, multi-objective decision-making analysis method. Firstly, it establishes a multilevel structure, determines the relative importance of each element in the hierarchy by comparing two by two, and then gives the order of advantages and disadvantages of the alternatives at the end through people’s subjective judgement and scientific calculation.

In hierarchical analysis, when the matrix order is more than 3 orders (including 3 orders matrix), then need to carry out consistency test, consistency index is derived by calculating the random consistency index RI and consistency index CI.

The first and second order judgement matrices are regarded as having full consistency in the hierarchical analysis method, and only the division of importance between the indicators is required. When N>3, the judgement matrix consistency index CI is calculated as: 1 $C I = \frac{λ_{\max} - n}{n - 1}$

Where n is the order of the matrix and λ_max is the largest eigenroot under the current matrix. Consistency ratio CR is a measure of matrix consistency and represents the ratio of matrix consistency index CI to random consistency index RI: 2 $C R = \frac{C I}{R I}$

It is generally accepted that a matrix is considered consistent if CR is less than 0.1. Otherwise, the weights in the matrix need to be readjusted or the matrix needs to be reconstructed until the consistency requirement is met. If the judgement matrix has full consistency. This means that the consistency index is equal to 0. So the following equation can be obtained: 3 $\sum_{j = 1}^{n} a_{i j} ω_{j} = \sum_{j = 1}^{n} (ω_{i} / ω_{j}) ω_{j} = n ω_{i}, (i = 1, \dots, n)$ 4 $\sum_{i = 1}^{n} | \sum_{j = 1}^{n} (a_{i j} w_{j}) - n w_{i} | = 0$

The value on the left side of the equation reflects the consistency of the weight value ω_i with the judgement matrix A, the smaller the value is, the higher the consistency of the weight value with A. When it is satisfied, the matrix A has full consistency. So the consistency test problem can be converted into the following nonlinear programming problem: 5 $\min C I F (n) = \sum_{i = 1}^{n} | \sum_{j = 1}^{n} (a_{i j} ω_{j}) - n ω_{i} | / n$ 6 $s . t . \sum_{j = 1}^{n} ω_{j} = 1, ω_{j} > 0, j = 1, 2, \dots, n$

Where minCIF(n) is the consistency index, n is the number of elements of the matrix, and α_ij is the element of the ith row and jth column of the matrix. ω_j and ω_i are the values of the jth and ith element weights, which can be used as optimisation variables in the subsequent work. The basic procedure of the operation is to solve for the eigenvalues and the weights of the indicators corresponding to the eigenvectors.

In hierarchical analysis, the one-time test problem is a nonlinear planning problem that is difficult to deal with by conventional methods. Although the judgement matrix for constructing the evaluation system has been determined, its corresponding weight values can be optimised thus satisfying the consistency test.

Factor analysis is the study of potential relationships between its attributes. The original data, i.e., the sample values, are provided with 2 random variables x and y, which represent two variables A and B. Their content values are measured for n specimens: 7 $\vec{x} = (x_{1}, x_{2}, \dots \dots, x_{n})$ 8 $\vec{y} = (y_{1}, y_{2}, \dots \dots, y_{n})$

The samples were first standardised and the mean and variance were calculated according to the following formula: 9 $\bar{x} = \frac{1}{n} \sum_{i = 1}^{n} x_{i}, \bar{y} = \frac{1}{n} \sum_{i = 1}^{n} y_{i}$ 10 $σ_{x}^{2} = \frac{1}{n} \sum_{i = 1}^{n} {(x_{i} - \bar{x})}^{2}$ 11 $σ_{y}^{2} = \frac{1}{n} \sum_{i = 1}^{n} {(y_{i} - \bar{y})}^{2}$

Re-order: 12 $x_{i}^{'} = \frac{x_{i} - \bar{x}}{σ_{x}}, y_{i}^{'} = \frac{y_{i} - \bar{y}}{σ_{y}}, i = 1, 2 \dots \dots, n$

The sample after standardisation meets the following conditions: 13 $\bar{x^{'}} = \frac{1}{n} \sum_{i = 1}^{n} x_{i}^{'} = 0, \bar{y^{'}} = \frac{1}{n} \sum_{i = 1}^{n} y_{i}^{'} = 0$ 14 $σ_{x^{'}}^{2} = \frac{1}{n} \sum_{i = 1}^{n} x_{i}^{'}^{2} = 1, σ_{y^{'}}^{2} = \frac{1}{n} \sum_{i = 1}^{n} y_{i}^{'}^{2} = 1$

Here, $\vec{x}$ , $\vec{y}$ is still used to represent the samples after standardisation, and their variances and correlation coefficients can be calculated according to the following formula: 15 ${\begin{matrix} σ_{x}^{2} = \frac{1}{n} \sum_{i = 1}^{n} x_{i}^{2} = \frac{1}{n} \vec{x^{'} x} = 1 \\ σ_{y}^{2} = \frac{1}{n} \sum_{i = 1}^{n} y_{i}^{2} = \frac{1}{n} \vec{y^{'} y} = 1 \\ Y_{x y} = \frac{1}{n} \sum_{i = 1}^{n} x_{i} y_{i} = \frac{1}{n} \vec{x^{'} y} \end{matrix}$

It can be shown that the random variables $\vec{x}$ , $\vec{y}$ are uncorrelated and Y_xy = 0, algebraically equivalent to their inner product $\vec{x}', \vec{y} = 0$ , is geometrically a two-vector direct intersection.

For n samples with m variables per sample, the original data matrix is as follows: 16 $X = [\begin{matrix} x_{11} & x_{12} & \dots & x_{1 m} \\ x_{21} & x_{22} & \dots & x_{2 m} \\ \dots & \dots & \dots & \dots \\ x_{n 1} & x_{n 2} & \dots & x_{n m} \end{matrix}] = [\begin{matrix} {\vec{x}}_{1}, {\vec{x}}_{2}, \dots, {\vec{x}}_{m} \end{matrix}]$

The column vector at the right end of the equation: 17 ${\vec{x}}_{j} = (^{x_{1 j}, x_{2 j}, \dots, x_{n j})'}, j = 1, 2, \dots, m$

Represents the observed value of the jth variable on n samples, which can be viewed as a point or vector in an n-dimensional Euclidean space, denoted here by ${\vec{x}}_{j}$ . The relationship between the original variables is studied by examining the positional relationship of these m points or vectors.

If the sample data is normalised, i.e., X is a normalised matrix, i.e., there is: 18 ${\vec{x}}_{j} = \frac{1}{n} \sum_{i = 1}^{n} x_{i j} = 0$ 19 $σ_{j}^{2} = \frac{1}{n} \sum_{i = 1}^{n} x_{i j}^{2} = \frac{1}{n} {\vec{x}}^{'}_{j} {\vec{x}}_{j} = 1, 2, \dots, m$

Then the correlation coefficient between ${\vec{x}}_{i}$ and ${\vec{x}}_{k}$ is: 20 $Y_{j k} = \frac{1}{n} \sum_{i = 1}^{n} x_{i j} x_{i k} = \frac{1}{n} {\vec{x}}_{j}^{'} {\vec{x}}_{k}, j, k = 1, 2, \dots, m$

Correlation coefficient matrix R consists of correlation coefficients between two of the m variables: 21 $R = [\begin{matrix} r_{11} & r_{12} & \dots & r_{1 m} \\ r_{21} & r_{22} & \dots & r_{2 m} \\ \dots & \dots & \dots & \dots \\ r_{m 1} & r_{m 2} & \dots & r_{m m} \end{matrix}] = \frac{1}{n} x^{'} x$

The correlation coefficient matrix R is symmetric and at least semi-positive definite, which means that all of its eigenvalues are non-negative.

The correlation coefficient matrix is the starting point of the factor analysis method, and an important part of factor analysis is to study the structure of the correlation matrix. Also factor analysis often involves the matrix of correlation coefficients between two sets of variables, assuming that in addition to the previous m random variables, there are another p random variables. The matrix is as follows: 22 $y = [\begin{matrix} y_{11} & y_{12} & \dots & y_{1 p} \\ y_{21} & y_{22} & \dots & y_{2 p} \\ \dots & \dots & \dots & \dots \\ y_{n 1} & y_{n 2} & \dots & y_{n p} \end{matrix}] = [\begin{matrix} {\bar{y}}_{1}, {\bar{y}}_{2}, \dots, {\bar{y}}_{p} \end{matrix}]$

Assuming all standardised data, the correlation coefficient between ${\vec{y}}_{k}$ and ${\vec{x}}_{j}$ . is given by Eq: 23 $S_{k j} = \frac{1}{n} {\vec{y}}_{k^{'}} {\vec{x}}_{j}, k = 1, 2, \dots, p; j = 1, 2, \dots, m$

3.1.2

Vocal Music Teaching Effect Evaluation Index System

This section proposes to construct the evaluation index system for vocal teaching in college music courses. Firstly, the principles and basis of construction are determined, and the evaluation indicators are initially formulated. Then, the Delphi method is used to determine the index entries, and the weights of the indexes are calculated with the help of hierarchical analysis. The evaluation quantitative table is prepared based on the optimised evaluation index system of vocal music teaching, and its reliability and validity are tested. This study is constructed under the principles of scientificity, wholeness, development and operability by combing the existing relevant research results on teaching evaluation and vocal music teaching.

In order to safeguard the evaluation indexes of vocal music teaching formulated in this paper, the Delphi method was used to consult experts’ opinions, mainly including whether the indexes are set reasonably, whether the logic is clear and how important each index is. The total number of experts involved in this study was 50, and two rounds of expert enquiry were conducted. By collating and analysing the results of the correspondence, the evaluation indexes of vocal music teaching were finally determined, laying a solid foundation for the construction of the evaluation index system.

After the adjustment of the results of the first round of questioning, the second round of questioning collated and counted the results of the expert’s evaluation of the five first-level indicators, namely, teaching objectives, teaching content, teaching methods, teaching evaluation and teaching effects. The results of the experts’ enquiry on the first-level indicators are shown in Table 1. The average of the importance assignment is the lowest at 4.68 and the highest at 5.00, the standard deviation is between 0 and 0.468, and the coefficient of variation is in the range of 0 to 0.112. The five first-level indicators are in line with the screening criteria, and at the same time, none of the 50 experts put forward modification opinions on the first-level indicators. Therefore, the result of the correspondence in this round is that the first-level indicators are all included in the present study. Of the evaluation index system, no modification is made.

Table 1.

The expert on the first level indicators results

Primary indicator	Average	Standard deviation	Variation coefficient (CV)
(A)Teaching goal	4.95	0.156	0.015
(B)Teaching content	4.98	0.170	0.558
(C)Teaching method	4.84	0.354	0.453
(D)Teaching evaluation	5.00	0.000	0.000
(E)Teaching effect	4.68	0.468	0.112

Collating and statistically evaluating the results of experts on the 18 secondary indicators, the secondary indicators of teaching objectives include clarity of objectives, plurality of objectives, and value of objectives. The secondary indicators of teaching content include completeness, value, richness and coverage of teaching content. The secondary indicators of teaching methods include teaching mode, teacher’s means, and teaching thinking. The secondary indicators of teaching evaluation are teacher evaluation, student evaluation, classroom evaluation, and education-related evaluation. The secondary indicators of teaching effectiveness are, in order, course effect, learning effect, performance improvement and problem improvement.

The results of the expert enquiry for the secondary indicators are shown in Table 2. The mean of the importance value is within the range of 4.06-4.95, the standard deviation is between 0.254 and 1.028, and the coefficient of variation is between 0.072 and 0.268. According to the above specified criteria for the inclusion of the indicators, the 18 level 2 indicators meet the screening criteria, and not only is the mean of the importance value greater than 4, but also the standard deviation and the coefficient of variation fall within the established range. At the same time, none of the 50 experts proposed any modifications to the secondary indicators, so the result of this round of correspondence was that all the secondary indicators were included in the evaluation indicator system of this study without any modifications.

Table 2.

Experts on secondary indicators

Primary indicator	Secondary indicator	Mean	Standard deviation	Variation coefficient (CV)
(A)Teaching goal	A1	4.95	0.254	0.230
	A2	4.75	0.511	0.110
	A3	4.59	0.501	0.113
(B)Teaching content	B1	4.57	0.502	0.131
	B2	4.71	0.481	0.106
	B3	4.42	0.543	0.072
	B4	4.43	0.695	0.163
(C)Teaching method	C1	4.58	0.592	0.136
	C2	4.62	0.593	0.136
	C3	4.68	0.543	0.126
(D)Teaching evaluation	D1	4.26	0.684	0.165
	D2	4.35	0.755	0.203
	D3	4.36	0.563	0.138
	D4	4.58	0.632	0.172
(E)Teaching effect	E1	4.50	0.591	0.136
	E2	4.06	1.028	0.123
	E3	4.17	1.015	0.268
	E4	4.44	0.687	0.131

Based on the evaluation results given by 50 experts in the 2nd round of correspondence, this study used hierarchical analysis and factor analysis to assign values to the indicators, and the evaluation index system and weights of vocal music teaching are shown in Table 3. The corresponding weights of the five first-level indicators, including teaching objectives, teaching content, teaching methods, teaching evaluation and teaching effect, are 0.315, 0.300, 0.198, 0.083 and 0.104, respectively, and at the same time, the scientificity and reasonableness of the constructed evaluation indicator system are further examined.

Table 3.

The evaluation index system and weight of vocal music teaching

Primary indicator	Weighting	Secondary indicator	Normalized weight	Weighting
(A)Teaching goal	0.315	A1	0.539	0.172
		A2	0.164	0.07
		A3	0.297	0.012
(B)Teaching content	0.300	B1	0.175	0.065
		B2	0.442	0.138
		B3	0.26	0.082
		B4	0.123	0.045
(C)Teaching method	0.198	C1	0.304	0.098
		C2	0.284	0.015
		C3	0.412	0.088
(D)Teaching evaluation	0.083	D1	0.173	0.015
		D2	0.145	0.013
		D3	0.452	0.041
		D4	0.23	0.021
(E)Teaching effect	0.104	E1	0.183	0.017
		E2	0.121	0.011
		E3	0.344	0.045
		E4	0.352	0.052

3.2

Evaluation and Analysis of the Effectiveness of Interactive Vocal Music Teaching

This study will adopt the method of empirical test to verify the effect of vocal music teaching optimised by interactive content development in this paper. In this chapter, firstly, based on the evaluation index system determined by the above research, a questionnaire is prepared, a teaching experiment is carried out at X University, and the effect of this paper’s vocal music teaching mode is evaluated through experimental teaching, and finally the results of the survey are analysed, and corresponding development suggestions are put forward. The teaching experiment of this paper was carried out in X college. 468 students and 7 teachers were selected for the survey, and the questionnaire was carried out using a quantification of 1~5 points, and the higher the score, the better the effect. A total of 475 questionnaires were distributed in this survey, and after excluding invalid questionnaires, the remaining valid questionnaires were 453, and the questionnaire validity rate was 95.4%. The overall evaluation of vocal music teaching is shown in Table 4; specifically, the mean value of each index from high to bottom is teaching content (4.635), teaching effect (4.552), teaching objectives (4.430), teaching average (4.354) and teaching methods (4.123). The highest mean score of 4.635 for teaching content indicates that this paper plays a better role in developing and optimising the interactive content of vocal music teaching based on new media technology. In addition, the mean score of the teaching method is the lowest at 4.123, indicating that the integration of vocal music teaching and new media technology needs to be further improved so as to improve the integration effect of the teaching method and new media technology, and to promote the development of interactive content and the combination of teaching methods. Comprehensively, the overall average score of this paper’s vocal music teaching mode based on the development and optimisation of new media interactive content is 4.339, which is an excellent overall teaching effect and proves that this paper’s vocal music teaching mode is able to have a better performance in actual teaching. Although the overall effect of this paper’s teaching mode is good, with the development of the times and new media technology, the teaching content and interactive methods will be constantly updated, so actively carry out the teaching practice, expand the knowledge reserve, strengthen the sense of teamwork, and actively join the new media technology to learn and interact with the development of the formation of education and technology community is the development of the road of the college vocal music teaching in the new media era.

Table 4.

Overall evaluation of vocal music teaching

Indicator	N	Maximum	Minimum	Mean	Standard deviation
(A)Teaching goal	453	5.0	3.0	4.430	0.533
(B)Teaching content	453	5.0	3.0	4.635	0.441
(C)Teaching method	453	5.0	3.0	4.123	0.498
(D)Teaching evaluation	453	4.5	3.0	4.354	0.601
(E)Teaching effect	453	4.5	3.0	4.552	0.422
Primary indicator	453	4.8	3.0	4.419	0.499

4

Conclusion

This study is based on the interactive content of college vocal music teaching under the perspective of new media and constructs a teaching mode and teaching effect evaluation index system based on the optimisation of interactive content around vocal music teaching.

In the construction of the evaluation index system, the five level 1 indexes finally determined are teaching objectives, teaching content, teaching methods, teaching evaluation and teaching effects. Subsequently, this paper uses hierarchical analysis and factor analysis to confirm the weights of the indicators, and the corresponding weights of the five first-level indicators are 0.315, 0.300, 0.198, 0.083 and 0.104, respectively.

For the teaching evaluation of interactive vocal music teaching, the overall average score of the vocal music teaching mode optimised based on new media interactive content development in this paper is 4.339, and the overall teaching effect is excellent. Among the evaluation results of each index, the average score of teaching content is the highest at 4.635, which also proves that the development and optimisation of interactive content for vocal music teaching provides a good supplement to the teaching content.

Through research and teaching experiments on the development of interactive content for vocal music teaching, this study proposes a vocal music teaching model that can be practically applied. However, the mean score of its teaching method is relatively low, 4.123, which is still insufficient and needs to be improved, and it needs to explore a more natural transition in the integration of teaching methods and new media.

Language:: English

Publication timeframe:: 1 times per year
Journal Subjects:: Life Sciences, Life Sciences, other, Mathematics, Applied Mathematics, General Mathematics, Physics, Physics, other

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Research on Interactive Content Development of Vocal Music Teaching in College Music Courses in the New Media Era

Zhanjun Hu

Published Online: Feb 03, 2025

Received: Sep 09, 2024

Accepted: Dec 22, 2024

DOI: https://doi.org/10.2478/amns-2025-0029

KeywordsHierarchical analysis, Factor analysis, Teaching evaluation, Vocal music teaching

© 2025 Zhanjun Hu, published by Sciendo

This work is licensed under the Creative Commons Attribution 4.0 International License.

Keywords
Hierarchical analysis, Factor analysis, Teaching evaluation, Vocal music teaching