The Design of University Physical Education Management Framework Based on Edge Computing and Data Analysis

Educational informatization has become the only way for mankind to enter the information age, and the application of educational resource library is a key issue in the integration of information technology disciplines. Aiming at the shortcomings of existing college physical education management technology, this article is dedicated to developing a new online management platform for physical education. Firstly, the introduction of edge computing technology in the architecture design of college physical education system can fully improve the efficiency of the management system. Secondly, based on data cleaning, the BP neural network algorithm modified by particle swarm is used to conduct in-depth analysis of the data of the university sports teaching management system and obtain corresponding optimization measures. Finally, it is verified in actual tests that the system can quickly perform data search, entry, modification, deletion, and other operations, which can ensure the realization of the school sports department’s networked, scientific, standardized, and digitalized management of physical education resources.


Introduction
Information technology is changing the production, life, learning, and education methods of human society [1,2]. It not only brought a brand-new information environment to the education field, but also caused a comprehensive innovation of educational concepts, and had a profound impact on educational thinking, teaching methods and teaching methods [3]. The physical fitness of current students is declining year by year, which is closely related to the public physical education in colleges and universities [4,5]. In order to improve the level and effectiveness of university teaching, the research of public sports is very important, and we will carry out related research.
At present, many industries have moved towards office standardization, automation, and networking development, of course, including the physical education management department [6]. While encouraging teachers and students of various colleges and universities to engage in physical fitness activities, the education department also found that colleges and universities have corresponding drawbacks in sports management, such as the shortage of sports venues and unreasonable resource allocation [7]. In recent years, with the rapid development of computers, more and more companies, universities, and related departments use network and information management models [8]. Modern management has long become the trend of efficient operation in various industries. While reducing the pressure of managers, this model also provides convenience for people's lives [9]. While the construction of sports Informa ionization is carried out, information resources are also valued by sports organizations, and the development of an informationbased sports teaching management system is imperative [10]. Only in this way, sports resources will be distributed, and the needs of organizations and individuals at all levels for sports information will also be met. To achieve informatization and standardization of physical education management in colleges and universities, it must develop a physical education management system. Through the development of the student physical education management system, the physical education management system of colleges and universities realizes management Informa ionization and standardization [11,12]. By improving the efficiency of sports information management, this will not only greatly improve the efficiency of student sports management information in colleges and universities but also further improve the physical fitness of students [13,14].
Educational informatization has become the only way for mankind to enter the information age, and the application of the educational resource library is a key issue in the integration of information technology disciplines. Aiming at the shortcomings of existing college physical education management technology, this article is committed to developing a new online management platform for physical education. Develop a new university sports teaching management system by combining edge computing and particle swarmmodified BP neural network algorithm technology. Through this sports management system, the sports resource management of the school sports department can be scientific, standardized, and digitized. The system can quickly perform operations such as data search, entry, modification, and deletion.

Overview of College Physical Education Management.
Physical education classroom management is an important part of physical education activities and an important factor affecting the quality of classroom teaching. Herbart once said that "if you do not grasp the constraints of management firmly and gently, teaching any homework is impossible." From this, we can know the importance of scientific management in teaching [15,16]. Unlike other subjects, public physical education is taught outdoors to impart sports knowledge and skills so that students can form a lifelong physical education class [17]. In order to better complete the physical education teaching goals and improve the quality of teaching, physical education teachers control the impact of various potential factors in the classroom to complete the teaching goals, which requires teachers to have outstanding management capabilities [18]. Schematic diagram of the concept of college physical education management is shown in Figure 1.
In the process of public sports classroom teaching management, it is often impossible for both teachers and students to consider multiple tasks at the same time [19,20]. We must realize the psychological compatibility between teachers and students in the teaching process [21,22]. In the classroom teaching process, how teachers manage their work tasks and their attitudes towards students as well as how students manage their own learning tasks and their attitudes towards teachers' work are very important. In the teaching process, we learn from each other, combine the advantages of all aspects, and slowly optimize classroom teaching management. But while changing the concept of management methods, certain principles should be implemented [23]. In order to achieve informatization and standardization of physical education management in colleges and universities, it must develop a physical education management system. Through the development of the student physical education management system, the physical education management system of colleges and universities realizes management Informa ionization and standardization [24].

Edge Computing Technology.
With the unprecedented popularity of mobile devices such as smart phones, cloudbased mobile sensors, tablets, and wearable devices, the Internet of Things has been extensively developed, thereby promoting the development of smart environments [25]. The Internet of Things enables mobile users to experience smart applications and enjoy various services with highquality service quality, such as mobile online games and augmented reality. These services usually require many mobile devices with limited size and low power consumption to perform computationally intensive and timesensitive tasks [26]. However, due to the low computing power and limited battery life of mobile devices, it is challenging to perform these services [27,28]. Edge computing is an advanced version of cloud computing that reduces latency by bringing the service closer to the end user. Edge computing reduces the load of the cloud by providing resources and services in the edge network. However, edge computing will increase cloud computing by reducing the sensitivity of sensitive applications to end users. Like the cloud, edge service providers can provide end users with applications, data computing, and storage services [29].
Mobile edge computing (MEC) and wireless power transmission (WPT) are two promising technologies to solve the above challenges. In recent years, because MEC can significantly improve the computing power of mobile devices in a cost-saving and energy-saving manner, it has attracted increasing attention from the industry and academia. It allows mobile devices to offload some or all their computationally intensive tasks to MEC servers located at the edge of the wireless network, such as cellular base stations and access points. Unlike traditional cloud computing, MEC servers are deployed near end users [30]. Therefore, MEC has the potential to provide low-latency services, save energy for mobile users, and achieve high security. So far, many leading companies have regarded MEC as a promising technology for future wireless communication networks [31].

Analysis of the Needs of College Physical Education Management
We understand the background and significance of the physical education management system and the relevant research status at home and abroad. This chapter will analyze the needs of the physical education management system from the perspective of system function and nonfunctional needs analysis based on the content of the chapters. The overall framework of the system is planned, the system development platform is selected, and the relevant technology required for the development system is selected [32]. The college physical education management system uses information technology to efficiently manage the actual situation of physical education. It mainly includes competition management, physical fitness test management, physical education management, and user management. Through continuous investigation, in line with the principles of practicability, safety, and scientific, the demand analysis diagram of the college physical education management system is obtained, as shown in Figure 2.

Wireless Communications and Mobile Computing
By strengthening and standardizing the work of physical education administrators, the fairness, orderliness, and efficiency of physical education management are guaranteed [33]. The demand analysis of the university sports management system in Figure 2 shows practical, safe, and scientific principles. From the current situation of the construction of public sports information and education resources in colleges and universities, the existing sports facilities and related sports electronic media resources have been greatly improved [34]. Some college sports departments or departments have certain experience in case handling, sports multimedia course teaching, and sports network distance teaching. The relevant sports webpages of the colleges and universities are also very refined and perfect. Some schools have also shared their own excellent sports courses with brother colleges and universities on the sports website page. However, due to the different levels of emphasis on different schools, there are still many colleges and universities in a backward situation in the update of sports information resources and video library webpages, and there are very few colleges and universities that realize the joint construction and sharing of public sports education resources between schools. Facing the needs of college physical education in public schools, there is an urgent need to develop a public sports resource sharing application platform system to enable the exchange of resources among colleges and universities, reduce redundant construction, and promote the informatization of college sports. The task system of the complete public sports resource sharing application platform differs from the nature of the unit. The system can be divided into several major functional modules through the summary and subtask system. Each part has specific functions and is divided into 3 major modules. The five relatively small parts of the part are teacher management module, student learning module,

Wireless Communications and Mobile Computing
and administrator module. The small modules are sports online learning, student world, physical education teaching, teacher world, and administrator system.

Analysis on the Management Data of Physical Education in Colleges and Universities
Facing the needs of college physical education in public schools, there is an urgent need to develop a public sports resource sharing application platform system to enable the exchange of resources among colleges and universities, reduce redundant construction, and promote the informatization of college sports. In order to be able to compare with the original scheme, a simulation model based on simulation is introduced. The task system of the complete public sports resource sharing application platform varies with the nature of the unit. The hidden nodes of BP neural network are usually determined by repeated forward and backward propagation methods. By modifying or constructing training methods to change the number of hidden nodes, the corresponding initial weights and thresholds will also change, thereby affecting the network performance convergence and learning efficiency. In order to reduce the impact, a neural network model based on particle swarm optimization is used to optimize the adjustment of weights and thresholds, thereby speeding up the convergence of the network and improving the learning efficiency of the network.
Suppose the neural network is trained to get a network with different weights and thresholds. After each training, the sample calculates the training error of the test sample and the test error of the test sample according to the formula.
After each training, BP algorithm and particle swarm optimization algorithm will jointly affect the adjustment of weights. Therefore, the basic BP network weight adjustment formula should also add a weight adjustment formula.
By substituting the two coefficients into the equation of the second problem, we can get If the upper layer contains factor, the layer weight values are b 1 , b 2 , b 3 ⋯ b n , respectively. In addition, we will calculate the composite weight of each layer element to the target layer.
Database design refers to the purpose of meeting data storage and processing requirements in a specific application environment and building a certain database model to effectively save data. In order to better complete the physical education teaching goals and improve the quality of teaching, physical education teachers control the impact of various potential factors in the classroom to complete the teaching goals, which requires teachers to have outstanding management capabilities. Database design is the core of the establishment of the system and also the basis for the establishment of the required database and application system. Combined with the actual situation of the physical education management of college, MySQL Server is used as a tool to build a database.

College Physical Education Teaching Management Test and Evaluation
Whether the university education and teaching management system can exert system efficiency, reduce production costs, and improve the system of management depend on the feedback after using the system. After design and development, the system enters the testing phase. Software testing is an important activity that is aimed at finding defects and reducing risks to ensure software quality, only through examples to test the system, according to the results of the operation, to evaluate the performance of the system. Types of physical education teaching management tests in colleges and universities-standard 1 are shown in Figure 3.
In the early and midstage of the construction of the college sports teaching management cluster, that is, when the data in the cluster has not reached the scale of fully training the diagnostic model, the fault diagnosis model can be provided by the real-time data management system in the cluster to provide some real-time collected bearing fault data set. Types of physical education teaching management test in colleges and universities-standard 2 are shown in Figure 4.
But it is still sufficient to complete the full training of the model. Currently, it is necessary to use migration learning to make edge computing end servers work together. Transfer learning between cloud and edge computing can greatly improve the accuracy of diagnosis. Through exploration and experimentation, we can draw conclusions and use a small amount of training data in the initial stage of cluster construction. Changes with the number of MEC frequencies-energy consumption are shown in Figure 5.
At the edge end, only the local model needs to be updated with the model parameters trained on the fog end to accurately complete the real-time diagnosis of the bearing status. Changes with the number of MEC frequencies-number of people served are shown in Figure 6.
Carry out necessary tests for the design and implementation of the public sports education resource sharing platform system, and test the corresponding components. The build test is divided into two aspects: software and hardware to test. Build an independent test environment. Changes with the number of MEC frequencies-the number of packets transmitted are shown in Figure 7.
The running environment of the test needs to meet the public conditions. Next, conduct corresponding preinstallation tests on the public sports education resource sharing platform system. Perform individual tests on individual main test items. Changes with the number of MEC frequenciesexcellent evaluation are shown in Figure 8.
Through the above tests, it is found that most of the functions of the system can meet the system requirements. That is, the basic function of the system can satisfy the management of physical education. In terms of sports event registration, score entry, and related sports event publicity, the value of the sports education management system is gradually reflected, because many sports event publicity can be directly published to the system with the help of the system. Promoting the informatization of university sports plays an impor-tant role. Facing the demand for physical education in public schools and universities, there is an urgent need to develop a public sports resource sharing application platform system to realize the exchange of resources between universities and reduce redundant construction. For example, the feedback information could not be fed back to the administrator in time, and there was a phenomenon that the registration could not be successful once during the registration  6 Wireless Communications and Mobile Computing process. But for the current test and use, no other errors have been found. We will also further analyze the related design process and debugging progress.

Conclusion
The college sports management system has realized management Informa ionization and standardization. This has not only greatly improved the efficiency of colleges and universities in student sports management information. This will also greatly improve the efficiency of sports information managers. Educational Informa ionization has become the only way for mankind to enter the information age, and the application of educational resource libraries is a key issue in the integration of information technology disciplines. Aiming at the deficiencies of existing university sports management techniques, this article is dedicated to developing a new sports online management platform. Combine edge computing and particle swarm-improved BP neural network algorithm technology to develop a new type of university sports teaching management system. The system can quickly perform operations such as data search, entry, modification, and deletion. The current sports management system still has certain shortcomings. For example, the feedback information cannot be fed back to the administrator in time, and there is a phenomenon that the registration is unsuccessful once during the registration process. But for the current test and use, no other errors were found. We will further analyze the related design process and debugging progress. In the future, we will further devote ourselves to sports management research, so as to ensure the realization of the network of these school sports departments, the scientific, standardized, and digitalized sports resource management.