Design of Multimedia English Online Teaching Platform under Wireless Network Communication Technology

The traditional online teaching platform has poor compatibility due to the high data delay in practical applications. Therefore, a Multimedia English online teaching platform under wireless network communication technology is designed. Aiming at the actual functional requirements of online teaching, the overall architecture of the Multimedia English online teaching platform is designed. In this architecture, the hardware of the data collector, memory, and main controller is deployed to build the platform. Based on the wireless network communication technology, the software modules are divided into two parts. It is made of a number of functional modules. The design of the platform functional modules is mainly based on the main functions of the administrator submodule, the teacher submodule, and the student submodule. At the same time, the weight of the indicators is determined by combining the analytic hierarchy process and the evaluation domain for the quality evaluation of Multimedia English online teaching is established. The level model completes the platform design. The experimental results show that the test results of the designed platform meet the expected goals and can effectively improve the quality and efficiency of Multimedia English online teaching. The teaching quality is always higher than 95%, and the average teaching efficiency is 96.27%.

network unblocked mode, new teaching evaluation method, new quality improvement requirements, etc. e study in [8] puts forward the practice and research of hybrid teaching of sports anatomy courses based on the Multimedia English online teaching platform and demonstrates the superiority and feasibility of the hybrid teaching mode through experimental comparison, mathematical statistics, and literature review.
e results show that the students in the experimental group with a mixed teaching mode had better knowledge and understanding of the relevant contents of the experiment than the students in the control group with traditional teaching methods. e mixed teaching mode is especially suitable for the characteristics of students majoring in physical education, and it is worth popularizing and applying in the teaching of sports anatomy.
Although the above research has made some progress, the application under wireless network communication technology is not enough. erefore, the design of a Multimedia English online teaching platform under wireless network communication technology is proposed. Wireless network communication technology is a communication method for information exchange by using the characteristics that electromagnetic wave signals can propagate in free space. It can be point-to-point communication, point-tomultipoint communication, broadcasting, cellular network, other wireless networks, and WiFi technology. Its application in the Multimedia English online teaching platform had a good effect. Setting the actual functional requirements of online teaching as the goal, the author designs the overall architecture of the Multimedia English online teaching platform, deploys hardware and software modules in this architecture, determines the index weight combined with the analytic hierarchy process, establishes the evaluation-domain level model of Multimedia English online teaching quality evaluation, and completes the design of the Multimedia English Online teaching platform. e results show that the designed platform can meet the expected objectives and improve the quality and efficiency of Multimedia English online teaching.

Architecture Design of the Multimedia English Online
Teaching Platform. e Multimedia English online teaching platform is based on the open-source platform for architecture and secondary development. In order to standardize the development process and improve the development efficiency, the overall architecture of the Multimedia English online teaching platform is designed with wireless network communication technology to achieve the design goal of the platform [9,10]. e upper layer does not need to completely rely on the specific implementation details of the lower layer. Changing the structure of the upper layer will not affect the lower layer, making the code more concise, so as to meet the coupling requirements of various modules of the Multimedia English online teaching platform [11].
When the server receives the user's request to access the page, it first loads the global configuration file, initializes the loading core framework, such as data operation, routing, and security, schedules the controller according to the configured route, requests the business logic layer and data layer to load data, and renders the data to the page, thus completing the whole process of request operation and rendering and outputting the data to the page [12,13]. e overall architecture of the Multimedia English online teaching platform is shown in Figure 1.
As shown in Figure 1, the Multimedia English online teaching platform adopts a hierarchical tree structure design, which can be divided into five modules: user layer, application layer, middle layer, data layer, and basic environment layer for the user [14]. According to the actual functions of these five modules, a Multimedia English online teaching platform is designed.

Platform Hardware Design.
Platform hardware refers to the physical equipment that constitutes the computer and is the realistic carrier for the operation of various logic programs. In the Multimedia English online teaching platform [15,16] designed with wireless network communication technology, the key hardware used includes a data collector, memory, and master controller, which will be analyzed in detail as follows.

Data Collector.
e data collector is a programmable logic chip equipped with a crawler program, which can be used to complete the search and collection of user history learning data, including web browsing information, user retrieval keywords, resource download records, exchange and interaction information, and other data that can understand user preferences [17]. e programmable logic chip in this platform is EPM240T100I5N TQFP-100 CPLD. e basic parameters of the chip are shown in Table 1.
According to the basic parameters of the chip in Table 1, it can be seen that the programmable logic chip in the Multimedia English online teaching platform plays an important role and, at the same time, it needs to meet the requirements of low noise and high precision during use.

Storage.
Massive English teaching resources and a large amount of user historical behavior data are not enough to be stored only by the storage space carried by the platform itself. erefore, after the data collector completes a collection task, it is necessary to transfer the collected data to the external memory [18,19]. e memory in this platform is a disk array with 12 disks, which is equipped with a 4-bit Annapurna Labs Alpine AL-324 ARM@Cortex@-A57 Quad-Core 1.7 GHz processor and 46BDDR4 memory (up to 16 GB) support SATA6Gb/s hard-disk transmission interface to provide faster read and write speed. In addition, two GbE SFP + and two 2.5Gbe network ports are built in the disk array. Using the disk array can realize the reasonable deployment of the network environment, so as to realize the 2 Computational Intelligence and Neuroscience tasks of copying, saving, repairing, and restoring massive data.

Master Controller.
e main controller is the core hardware of the Multimedia English online teaching platform, which is mainly used for the overall operation control of the platform and the execution of various business logic operations [20]. e main controller of this platform is dtb-1022 J1900-embedded industrial computer, and its basic parameters are shown in Table 2.
According to the basic parameters of the embedded industrial computer in Table 2, it can be seen that the power supply, CPU, I/O interface, and other components are centrally installed in a chassis, which has the characteristics of compact structure, small size, and low price and generally adopts an integral structure.

Platform Software Design.
In order to further improve the overall function of the Multimedia English online teaching platform [12,21], the software part of the platform can be divided into three modules: administrator management submodule, teacher management submodule, and student management submodule. e specific module function flow chart is shown in Figure 2.
e specific contents of the platform software design are given as follows.

Administrator Submodule.
is module is the manager of the Multimedia English online teaching platform. Its main responsibility is platform maintenance and website management [22,23], to ensure the stable operation of the platform and the effective development of teachers' teaching interaction.
is module is the core part of the whole Multimedia English online teaching platform. e specific functions are described as follows: (1) Role Division. When logging into the Multimedia English online teaching platform with the browser for the first time, it is necessary to provide the e-mail and other contact information of new users and   realize role matching and authority division for new users according to the information provided by users [24,25]. For example, if the new user is a teacher, the permissions that the new user can use include applying for adding or deleting courses and uploading teaching resources to the network platform; if the new user is a student, the permissions of the user include online course selection, online testing, and viewing results. At the same time, the administrator has the functions of increasing or decreasing users and managing user-level permissions. (2) Course Management. By this function, the administrator can add or delete the function categories in the platform through the actual situation of English teaching. At the same time, the administrator also has the right to move, modify, or import new courses for each function, as well as the right to restore and backup courses [26,27]. (3) Web Page Setup. e website administrator can choose to install different skin plug-ins to make the platform layout and appearance design more beautiful. (4) Other Settings and Information Query. e website administrator can view the online time, offline time, course selection, and listening and other activities of users on this platform; notices and announcements can be issued on the platform, and multiple information can be accurately managed by using this module. e operation flow chart of the specific administrator submodule is shown in Figure 3.

Teacher Management Submodule.
One of the main users of the Multimedia English online teaching platform is teachers. e main responsibility of the design is to provide teachers with various permissions and functions through the platform, which can better complete teaching activities. Using the characteristics of the network platform, we can vividly design the English teaching process and carry out effective interactive activities, so as to achieve the purpose of teaching in a fun manner [28,29]. e specific functions are described as follows: (1) Applying for Courses. After receiving the notice of teaching, teachers can apply for adding new courses through the platform and simply design the new courses. At the same time, they can realize the functions of adding, deleting, modifying, moving, and so on. After the administrator imports the students into the platform in batches, group teaching can be realized according to the situation of the students. (2) Teaching Design and Organizing Activities. According to the course content and the characteristics of each course, teachers can upload teaching plans, teaching materials, teaching dynamic videos, teaching courseware, and other resources to the Multimedia English online teaching platform to facilitate the teaching process [30]. Based on the above teaching resources, they can achieve the predesigned teaching purpose, so as to improve the teaching quality and promote students to effectively acquire knowledge. (3) Online Test Management. In this function module, teachers can use the topic selection function of the question bank in the module to select the test questions in the question bank by random selection or manual selection to form the test paper. At the same time, teachers can also set the test time, the option of whether to answer again, and the number of answers and have the authority to delete, add, and change the order of the test questions. After the end of the semester teaching course, you can also use the network platform to prepare the final examination paper, in which the objective test questions can be judged by yourself through the platform.

Student Management Submodule.
In the Multimedia English online teaching platform, another main user is students. In order to facilitate students to browse the network   Computational Intelligence and Neuroscience platform, functions such as selecting course learning, course's interactive activities, online test answers, and setting up personal data are added to the student management submodule [31,32]. e specific functions are described as follows: (1) Course Learning. After successfully registering new users through the browser, students can view the teaching introduction and courses, as well as all learning courses in the semester. (2) Teaching Interaction. In the Multimedia English online teaching platform, according to the scene of teachers' curriculum, students can discuss relevant problems with teachers and other students to realize a series of interactive activities, so as to improve students' learning ability [33]. (3) Online Answers. In order to understand students' mastery of knowledge, students can conduct online self-evaluation according to the unit test provided by teachers after the unit course. After completing the test, they can also enter the Multimedia English teaching platform to realize the score query function, which can consolidate and review knowledge [34,35]. (4) Personal Data Management. Students can change their basic personal information in the Multimedia English online teaching platform and establish a personal learning space according to their interests and hobbies. e specific operation flow of the student management submodule is shown in Figure 5.
To sum up, the overall framework of the Multimedia English online teaching platform is preliminarily designed using wireless network communication technology. On the basis of this framework, each functional module is analyzed and designed in detail. A planning decision-making goal is set as M b , and the expression is as follows: Here, Y x represents the influencing factors and Q s represents the importance data of Y x corresponding to the planning objectives. Due to the difference in influence degree of influencing factors on the target M b , it is necessary to compare the influence degree, and all the comparison results can be expressed by D matrix: Here, d mm represents the influence degree coefficient in row m and column m. Assuming that the matrix D satisfies   Computational Intelligence and Neuroscience the consistency condition, the corresponding solution to the eigenvalue problem is as follows: Here, R u represents the fuzzy comprehensive evaluation coefficient. e fuzzy comprehensive evaluation method is a mathematical evaluation method. It mainly deals with the fuzzy things in the real world quantitatively through the basic theories and methods of fuzzy mathematics and makes an objective, accurate, and practical Multimedia English online teaching evaluation, so as to effectively solve the problems in the actual teaching process. e basic principle of a fuzzy comprehensive evaluation is as follows: give priority to collecting materials for accurate evaluation of Multimedia English online teaching and determine the main factors and grades of evaluation; then, the weight distribution of the online teaching evaluation index is determined by the above analytic hierarchy process, and the fuzzy mathematical model is established. Assuming that the analytic hierarchy process is used to determine the weight, the evaluation-domain level model is set as follows: A � a 1 , a 2 , · · · , a n . (4) Here, a 1 , a 2 , and a n all represent the evaluation grade coefficient. e teaching quality evaluation results of different teachers are obtained through the evaluation-domain level model, and the corresponding improvement measures are given in time combined with the evaluation results to ensure the effective improvement of the quality of the Multimedia English online teaching platform, so as to complete the design of the Multimedia English online teaching platform under the wireless network communication technology.

Experimental Analysis
In order to verify the feasibility of the designed Multimedia English online teaching platform under wireless network communication technology, the following experiments are designed. Taking the course teaching of a college English major as an example, the teaching content is set as the experimental object. On this basis, combined with the virtual simulation platform, the host used for the test is Microsoft Windows Professional Tomcat7.0 host, using Myeclipsee software as the simulation environment, the database type is SQL SERVER2012 Database 5.3, and the expansion device is Web Server, equipped with FTPServer, Mail Server, and Database Server subplatforms. e platform is controlled using Adobe Dreamweaver CS, PhotoImpactl2, and Acor-bat9, the network program language is JSP, and the TCP/IP communication protocol is executed. Other test environments are shown in Table 3.
According to the platform test environment in Table 3, the experiment uses English books in a university library as English teaching resources to test the application performance of the platform. e test process is shown in Figure 6.
Based on the test process of the Multimedia English online teaching platform in Figure 6, the simulation test parameters are set, as shown in Table 4.
In order to verify the practicability of the designed platform, the function and performance of the platform are simulated and tested, respectively. Functional testing is to use test cases to verify the function of the platform. e platform teaching function and platform management function are tested, and the results are shown in Tables 5 and 6. rough the function tests in Tables 5 and 6, it can be seen that during the operation of the platform data function, the client has relatively completed verification measures. Without going through the server, the client can complete reliable information category calibration, prevent the input of dirty data, ensure the quality of teaching resources of the platform, and quickly save the complete information to the database, All test results are passed, and the test results meet the expected objectives.
In order to further verify the effect of the Multimedia English online teaching platform under wireless network   results of teaching quality of each teaching platform are given in Figure 7. By analyzing the experimental data in Figure 7, we can see that the teaching quality of the designed platform is always higher than 95%, while the teaching quality of the platform in reference [7] and the platform in reference [8] is lower than 90%. Our platform uses analytic hierarchy process to evaluate the quality of Multimedia English online teaching, so as to obtain the evaluation results of Multimedia English online teaching in time.
rough the evaluation results, the corresponding improvement measures are given in time to ensure the effective improvement of the teaching quality of the designed platform. e student test scores of the designed platform are significantly higher than those of the other two platforms, which shows that the designed platform can obtain more satisfactory teaching results. e    Table 7.
By analyzing the experimental data in Table 7, we can see that the teaching efficiency of each platform is constantly changing with the increase in the number of experiments. e average teaching efficiency of the designed platform is 96.27%, the average teaching efficiency of the platform in reference [7] and the platform in reference [8] are 90.96% and 84.85%, respectively, and the decline trend of literature platform teaching efficiency is very obvious, mainly because the two teaching platforms failed to evaluate the teaching quality in the process of practical application, resulting in the cumbersome whole teaching process; it also proves that it is feasible and effective to add analytic hierarchy process to the designed platform for teaching quality evaluation.
To sum up, the designed Multimedia English online teaching platform under wireless network communication technology has a good effect in practical application and can produce positive results. As a practical technical scheme, it is not something in the abstract thinking stage but something that can be implemented in the industry and has the characteristics of enforceability, reproducibility, and usefulness. Compared with other literature platforms, the teaching quality and teaching effect of the designed platform are better and the performance is improved to a greater extent.

Conclusions
(1) During the operation of the data function of the Multimedia English online teaching platform under the designed wireless network communication technology, the client has relatively complete verification measures, which can complete reliable information category calibration and ensure the quality of platform teaching resources. A passing status is presented, and the test results meet the expected goals. (2) e designed platform uses the analytic hierarchy process to evaluate the quality of Multimedia English online teaching and obtains the evaluation results of Multimedia English online teaching in time to ensure that the teaching quality of the designed platform is effectively improved, and more satisfactory teaching results can be obtained. (3) e teaching efficiency of the designed platform is good, and it is effective to add the analytic hierarchy process to the platform to evaluate the teaching quality.

Prospects.
Due to the limitation of time and other factors, there are still some deficiencies in the designed platform. e follow-up research will focus on the following aspects: (1) We will expand the scope of research, make teachers give more targeted teaching, and ensure the effective improvement of teaching quality and efficiency   (2) In the follow-up, we will comprehensively analyze the learning situation of different students, so that the platform can comprehensively summarize and analyze them and give the corresponding teaching plan in time Data Availability e raw data supporting the conclusions of this article will be made available by the author, without undue reservation.

Conflicts of Interest
e author declares that there are no conflicts of interest regarding this work.