Financial PerformanceManagement System andWireless Sharing Network Optimization of Listed Enterprises under BPNN

)e study aims to respond to the difficulties in establishing an index system in financial performance management and ensuring the security of wireless sharing network and the local extremum and slow convergence speed of the traditional BP neural network (BPNN). First, Levenberg–Marquardt (LM) is used to optimize BPNN, and an improved BPNN is proposed. Second, the financial performance evaluation system of listed companies based on BPNN is constructed. Finally, a wireless network infusion detection system based on the improved BPNN is proposed and tested by constructing datasets and a real test environment.)e results show that (1) the financial performance evaluation system of listed enterprises constructed can evaluate the financial performance of listed enterprises with fewer errors. It is easy to operate, and it has high accuracy and the abilities of self-learning and selfadaptation; (2) Wireless Infusion Detection System (WIDS) based on the improved BP algorithm has a high detection rate and a low error rate. )e study provides important technical support for listed enterprises to improve the financial performance management level and market competitiveness and strengthen the security protection of networks.


Introduction
Nowadays, computer and Internet technology penetrates all aspects of people's life and work. In line with the development trend of the Internet, enterprise management gradually enters internationalization [1]. In the process of enterprise development, financial performance management plays a vital role in the long-term development of enterprises.
rough the financial activities in the enterprise evaluation system, the operation and management of listed enterprises can be comprehensively and objectively measured, the problems existing in the management are found, and timely corrections are made, laying a good foundation for the sustainable development of enterprises [2][3][4]. Balanced scorecard, Economic Value Added (EVA), and other methods are widely used for evaluating the financial performance management of listed companies. However, the evaluation effects are not as good as expected because of some defects, such as the difficulty in establishing the index system, the difficulty in determining the relationship between indexes, and the difficulty in allocating the weight of indexes, which are the obstacles to realize modern enterprises [5,6].
BPNN attracts the attention of researchers in various fields in recent years. It has the characteristics of selflearning, self-adaptation, and self-organization and has broad application prospects [7]. Gao implemented a combined performance evaluation model based on BPNN and rough set. e rough set attribute reduction theory is used to filter and optimize the evaluation index, and the key performance index set is obtained. en, BPNN is used to predict and evaluate the key indexes.
e experimental results show that the model greatly reduces the times of training and shortens the learning time [8]. Xu et al. proposed a combination forecasting method for energy consumption of the energy management system (EMS) based on BPNN. e energy consumption of EMS is predicted and analyzed by the grey combination model, grey Markov chain, and BPNN prediction model. e results show that the average relative error of this method is much lower than that of the existing methods, and the prediction accuracy is improved [9]. However, BPNN is easy to fall into local minimum and has slow convergence speed. In this case, BPNN is usually combined with other index screening techniques to speed up the convergence of the model and reduce the error when predicting and evaluating the relevant indexes of the enterprise. If BPNN is improved on this basis, its performance will be better. In the increasingly fierce market competition, if enterprises want to stand out and achieve the strategic goal of sustainable development, it is necessary to optimize the management of enterprises and prevent financial crisis or even bankruptcy through the improvement of financial performance evaluation and prediction methods [10,11].
In recent years, the wireless sharing network occupies an important position in the national household and various enterprises, and it brings convenience to people's life and work [12]. e wireless shared network has the characteristics of the simultaneous connection of multiple devices, strong mobility, simple installation, and low cost. It is composed of routers, computers, and other network nodes and realizes the wireless transmission of data [13]. However, the traditional Wireless Infusion Detection System (WIDS) is dependent on the rule base and export base and has weak environmental adaptability, which is not suitable for modern wireless sharing networks and cannot guarantee their security [14].
Based on the above, Levenberg-Marquardt (LM) is used to optimize BPNN and an improved BPNN is proposed. en, the financial performance evaluation system of listed companies based on BPNN is constructed. Finally, a wireless network infusion detection system based on the improved BPNN is proposed and tested by constructing datasets and a real test environment. e study aims to provide important technical support for listed enterprises to improve their financial performance management levels and market core competitiveness and strengthen system network security protection.

e Improvement of BPNN
2.1.1. Brief Introduction to BPNN. BPNN, known as the BP model, is a typical representative of the artificial neural network (ANN) and a most widely used ANN [15]. BPNN is generated by simulating the structure of the human neural network, which is a complex network composed of a large number of connected nodes [16]. BPNN has a multilayer perceptron structure, which mainly includes the input layer, the hidden layer, and the output layer [17]. e structure of the three-layer BPNN is shown in Figure 1. e input layer and the output layer are mainly to store and transmit external information. All networks contain an input layer and an output layer, but the number of hidden layers of the networks is different [18]. e hidden layer does not directly connect to the outside [19], but its change affects the relationship of the input layer and the output layer. e BP algorithm includes signal forward and reverses propagation in the learning process. e forward propagation is carried out from the input layer to the output layer. If there are many differences between the actual output signal and the expected output signal, it needs to be propagated backward. Backpropagation outputs errors through the hidden layer to the direction of the input layer by layer and distributes them to all units based on the error signal obtained by each layer to adjust the weight of each unit while adjusting the connection strength and threshold of the input layer, the output layer, and the hidden layer so that the error can be gradient descent. is process is repeated until the error is reduced in the allowable range or reaches the preset frequency [20].

e BP Algorithm.
e BPNN algorithm is short for the BP algorithm, and its calculation is performed as follows: (1) Appropriate input data and target data are selected as sample data to train BPNN (2) e BPNN model i established and network parameters are initialized. (3) e computer program is automatically completed and continuously circulated until the preset value is reached through the constructed network training sample data. (4) Network training is completed, the weights and thresholds are determined, and the results are output [21]. e specific steps are shown in Figure 2.
In short, the BP algorithm can transform the input and signals into nonlinear optimization. Combined with the gradient descent method, the iterative algorithm is used to solve the weight, and the added hidden layer nodes are used to increase the adjustable parameters of the optimization problem, obtaining the optimal solution [22]. e BP algorithm is a nonlinear optimization BPNN mainly used in the following: (1) Function approximation: let a network approximate a function by training input vectors and output vectors (2) Pattern recognition: it is linked to the input vector with an undetermined output vector (3) Classification: the appropriate behavior is classified by the input vector (4) Data compression: the dimension of the output vector is reduced for transmission or storage e architecture of networks only includes an input layer, an output layer, and a hidden layer to improve the accuracy, reduce the error, and avoid "overfitting" [23], and the number of nodes in the input layer and the output layer is decided. erefore, only the number of nodes in the hidden layer is determined. e equation for determining the number of the nodes in the hidden layer is as follows: where y is the number of the nodes in the hidden layer, a is the number of the nodes in the input layer, b is the number of the nodes in the output layer, and c is a constant from 1 to 10.

LM Optimization Algorithm.
Since the traditional BPNN is vulnerable to local extremum and has slow convergence speed, LM is used to optimize BPNN. It is the combination of the Gauss-Newton method and gradient descent method, which obtains the function extremum through iteration and combines the local convergence of the former and the global characteristics of the latter. e calculation equation of LM is expressed as follows.
x k and x k+1 are two points in function f(x), and their relationship can be expressed as Newton's law is where E(x) is the error index function, is the gradient, and E(x) can be expressed as where e(x) is the error; then, , In the above equations, S(x) is the Jacobian (J) matrix and J is expressed as e calculation rule of the Gauss-Newton method is as follows: e improved Gauss-Newton method is called the LM algorithm, which is expressed as where μ is the proportional coefficient, which is a constant greater than 0, and it is the unit matrix.

Index Selection of the Financial Performance Evaluation System Based on BPNN and Its Construction Principles
(1) Clarity Principle. e selected indexes should be simple and clear, and their meanings should have no ambiguity.
(2) Feasibility Principle. e selected indexes should be feasible, and too fine indexes will lead to cumbersome. e cost of the data acquisition of relevant indexes should also be considered. If the cost of data acquisition is higher than the returns it can bring, the indexes should be deleted or replaced. (3) Adaptability Principle. Different listed enterprises have their unique business and development models, and a set of financial performance evaluation index systems cannot be applied to all enterprises. erefore, the evaluation indexes should be based on fully understanding the research object and comply with the characteristics of the enterprise. (4) Predictive Principle. e financial performance evaluation system not only evaluates the past performance but also makes a reasonable prediction and guidance for the future development of enterprises through a comprehensive evaluation system.

Input layer
Hidden layer Output layer Outputs Figure 1: Structure of the three-layer BPNN.
Mobile Information Systems (5) Consistency Principle. e established enterprise financial performance evaluation system should be helpful to realizing the strategic objectives of enterprises, reflecting their characteristics, and allocating resources reasonably [2].

Construction of Performance Evaluation Index System (PEIS) of Listed Enterprises Based on BPNN.
Profitability, operational capacity, solvency, development capacity, cash flow capacity, and risk resistance are often used as important indexes to comprehensively show business management capabilities and achievements [24]. Since all enterprises are set up to make profits, the most important index to explore the management level of an enterprise is the profitability of the above six indexes. erefore, PEIS of listed companies is established with profitability as the first-grade index, net asset return, cost rate of the main business, price-to-earnings ratio, asset-to-liability ratio, inventory turnover rate, and income growth rate of the main business as the second-grade indexes. Among them, the net asset return, inventory turnover rate, and income growth rate of the main business are classified as positive indexes, the cost rate of the main business as the negative index, and the asset-to-liability ratio and price-to-earnings ratio as interval indexes. e indexes and their calculation equations are shown in Table 1.

Construction of PES of Listed Enterprises Based on BPNN
(1) Dimensionless Processing of Sample Financial Indexes. e financial performance evaluation indexes of listed enterprises provided above are used to collect sample data from "CSMAR financial series research database-China listed enterprise financial index analysis database." Different financial performance indexes have different dimensions and units, so they need to be normalized. Here, the range transformation method is used for dimensionless processing [25]. e processing rules are as follows: first, equation (9) is used for calculating the large index, known as the large variables. Second, equation (10) is used for calculating the small index, known as the minimal variables.
ird, the variable whose index is optimal within a certain range is called an interval variable, and equations (11)-(13) are used to calculate them.
In equations (11)-(13), x ij is the value of the i-th index in the j enterprise. Y ij is the value after processing.
(2) Determining the Nodes of BPNN. Six financial performance evaluation indexes are determined above. erefore, the number of the nodes in the input layer of BPNN is six, and the number of the nodes in the output layer is one. According to the equation, the number of nodes in the hidden layer is four. When the financial performance of listed enterprises is evaluated, the evaluation data can be obtained by inputting the corresponding index data.

Principles of the WID Algorithm.
e essence of WID is to identify the behavior that attempts to invade to the network. WID mainly includes data acquisition, feature extraction, data analysis, and response mechanism. It is used to obtain data including network packets, host logs, and applications. Due to the great number and disorder of data, WIDS also needs to extract the features of the key data and make them in a certain order. en, some detection techniques are used to analyze the features and judge whether there are security vulnerabilities in the network. WID can analyze the data inside or outside the network in real time, identify infusion attempts, and alert the system administrator and prevent infusion in time before the network system is damaged [26]. e basic working principle of WIDS is shown in Figure 3.  Mobile Information Systems

Simulation of a Real Environment.
A real environment based on wireless networks is constructed to test the proposed method. In the experiment, the proposed method is attacked by using test scripts. A representative attack example is made to illustrate the overall process of the experiment, and the detection model designed based on wireless networks is used for attack detection. e specific process is as follows: (1) Environment: a wireless access point with a legitimate user list. (2) Tool: a terminal with wireless card interfaces, also known as the OmniPeek packet capture tool. (3) Method: the attacker first uses OmniPeek to capture the data from the wireless network card interface and obtains the MAC address. en, he connects the MAC address of the attack device to that of the legitimate user, and the attack is successful.
In the test process, the times of abnormal disorder are used to determine whether the intrusion behavior exists. In general, the abnormal disorder is greater than 3. e rules of determining the times of abnormal disorder are as follows: where x 1 is the serial number of the previous message, x 2 is the serial number of the current message s, and θ is the rule threshold.

Validation of the Effectiveness of the Financial Performance Evaluation System of Listed Companies
(1) Establishment of the Datasets. e enterprise-related data used are all from the Wind Economic Database, which integrates a large number of global macro and industry statistics. e data in the database can be searched and analyzed fast, and the database has powerful graphics functions and can extract the dynamic features of data in Excel. It is an important database for economists, strategic analysts, and industry researchers. e financial data of 20 real estate enterprises listed on the Shenzhen and Shanghai stock exchanges from 2020 to 2021 are selected as the sample set after dimensionless processing. e securities codes are symbolized with letters and abbreviations to make the process simple and clear. Some of the sample data after dimensionless processing is shown in Table 2.
(2) Parameter Setting. e adaptive learning algorithm Traingdx with momentum is selected as the training function, and the model based on BPNN is trained in a Matlab development environment. In the above 20 samples, the first 15 are selected as training samples to determine the weights and thresholds. e expected output value of the sample is obtained by the export evaluation method. e last five sample data are used as test sets to verify the validity of the model. In actual operation, the maximum times of training are set as 10000, the convergence accuracy as 10 −3 , and the others as default values. e index data are input into BPNN to start training. (2) Model Parameter Setting and Evaluation Index. e maximum training times of the model based on the improved BP are set as 10000, the convergence error as 0.05,  e evaluation is conducted by calculating the error positive rate (FPR), detection rate (DR), and underreporting rate (UR), and the calculation equations are as follows:

Simulation of WID Based on the Traditional BP
where X is the normal number of samples, A is the number of normal samples misreported as infusion, and B is the number of infusion samples detected.

Training Results of the Model Based on BPNN.
Linear regression analysis and training results of the model based on BPNN are shown in Figures 4 and 5. Figure 4 shows the linear regression analysis of the actual output and simulation output of BPNN and the correlation between the output value and the actual value. e closer the correlation coefficient R2 is to 1, the higher the fitting degree of the two is, and the more accurate the output is. e correlation coefficient between the output value of the model based on BPNN and the actual value is as high as 0.99945, indicating that BPNN has high accuracy for enterprise financial performance evaluation and can meet the actual needs. From the training results in Figure 5, it is found that the model based on BPNN reaches the expected convergence after 2968 times of training. e fitting degree is high, and the network performance can meet the actual requirements. e trained specific gravity threshold is used to simulate the data through BPNN. e comparison between the actual output and the expected is shown in Figure 6. Figure 6 shows that the actual results of the sample data through the network are highly similar to the expected values, and the error is also controlled within a limited range. It is proved that the BPNN model designed can reveal the nonlinear relationship between the enterprise financial performance indexes through training and learning.

Simulation Evaluation Results of the Model Based on BPNN.
e weights and thresholds obtained by training the BPNN model are used to simulate and evaluate the last five samples. e results are shown in Figure 7.
e simulation results of the performance evaluation results of five listed real estate enterprises show that the financial performance level of enterprises with securities code S is the highest, followed by R, Q, and P, and the financial performance level of enterprises with securities code T is the lowest.

Training Results of the WID Model.
e comparison of training results between the traditional BP algorithm and the improved BP algorithm is shown in Figure 8.
In Figure 8, the times of training are used to achieve convergence, and the ordinate expresses the requirement of training accuracy. e figure shows that under the same error value requirement, the improved BP algorithm uses fewer training times than the traditional BP algorithm. When the error requirement is less than 0.1, the gap between the training times used by the two is increasing. is proves that the performance of the improved BP algorithm is greatly improved compared with the traditional BP algorithm.

Performance Test Results of the Improved BP Algorithm.
e improved BP algorithm is constructed, and the traditional algorithm is used to detect the correct rate of various attacks on the training dataset, and the comparison of the detection rate, false alarm rate, and false-negative rate of the algorithm on the test set is shown in Figure 9.  Figure 9 shows that the average detection rate of the traditional BP algorithm for three types of attacks is 79.98%, while the average detection rate of the model implemented is 93.75%, which is higher than that of the traditional algorithm by more than 17.22%. e false alarm rate of the infusion detection of the improved BP algorithm is 3.8%, which is about 42.1% lower than 5.4% of the traditional BP algorithm. e detection rate is 94.39%, which is about 7.1% higher than 88.16% of the traditional BP algorithm, and the underreporting rate is 4.42%, which is about 128.7% lower than 10.11% of the traditional BP algorithm.

Real Environment of the WID Model.
e results of infusion detection in the real environment are shown in Figure 10. e sample test results show that the detection rates of the WIDS based on the improved BP algorithm for the six types of attacks, namely, the disconnection authentication, connection attack, disconnection, authentication attack, camouflage user, and reconnection attack, are all greater than 99%, with the highest of 99.6%. Also, the error rate is controlled below 1.5%, with a minimum of 0.4%. In summary, the WIDS designed has a high detection rate, a low error rate, and a wide application prospect.

Discussion on Experimental Results
Two models are implemented, and they are the financial performance evaluation system of listed enterprises based on BPNN and the wireless network infusion detection system based on the improved BP algorithm. First, the financial Mobile Information Systems performance evaluation system is used to evaluate the financial performance of real estate enterprises listed on the Shenzhen and Shanghai stock exchanges. e linear regression analysis of the output value and the actual value of the model is carried out. e results show that the correlation coefficient between the output value and the actual value of the model is as high as 0.99945. e error between the output value and the actual value can also be controlled within 0.8557%, which indicates that the evaluation results are more accurate. e financial performance evaluation system of listed companies based on BPNN can evaluate the financial performance. Only the corresponding financial performance evaluation indexes are input into the BP model. e financial performance evaluation results can be output. According to the results, the following questions are asked: (1) whether the performance level of enterprises in the industry is good; (2) whether it has a competitive advantage compared with other enterprises; and (3) which aspects need to be improved to provide technical support for enterprises to improve their financial performance management level and core competitiveness.
Second, with the standard BP algorithm before optimization as the control, the KDD Cup dataset is used to test the performance of the improved BP algorithm. e results show that under the same requirements for convergence accuracy, the training times of the improved BP algorithm are less than those of the standard BP algorithm. Moreover,   the higher the accuracy requirements are, the greater the gap between the two is, indicating that the training speed of the improved algorithm is faster and the improvement effect is good. e false alarm rate of the improved algorithm in infusion detection is 3.8%, which is about 42.1% lower than 5.4% of the traditional BP algorithm. e detection rate is 94.39%, which is about 7.1% higher than 88.16% of the traditional BP algorithm; the underreporting rate is 4.42%, which is about 128.7% lower than 10.11% of the traditional BP algorithm. In summary, the infusion detection of the improved BP algorithm is more accurate than that of the traditional BP algorithm, and its detection accuracy is greatly improved. e wireless network infusion detection model based on the improved BP algorithm is feasible.

Conclusions
e financial performance management level directly affects the sustainable development of listed enterprises, but the traditional performance management level cannot meet the practical needs. e wireless sharing network has a special transmission mode and is not applicable to the traditional WIDS. Moreover, the traditional BPNN is vulnerable to the local extremum and has slow convergence speed. First, an improved BP algorithm is proposed by using the LM algorithm to optimize BPNN. Second, based on the improved BP algorithm, the financial performance evaluation system of listed enterprises and the wireless network infusion detection system are constructed.
rough the empirical analysis of the performance evaluation system designed and the test of WIDS, the results show that (1) the financial performance evaluation system designed can evaluate the financial performance of listed enterprises with a few errors. It is easy to operate, and it has high accuracy and the abilities of self-learning and self-adaptation; (2) WIDS based on the improved BP algorithm has a high detection rate and a low error rate. e innovation is that LM is mainly used to optimize BPNN, which greatly accelerates the training speed while ensuring the accuracy of the model. e shortcomings of this study lie in the following: (1) the number of the indexes of the performance evaluation system is few, and it needs to be expanded; (2) WIDS can only capture and warn infusion behaviors, but it cannot intercept them. On this basis, it is necessary to combine the interception system to form a more complete security system. e study provides important technical support for listed companies to improve the financial performance management level and market competitiveness and strengthen the security protection of networks.

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

Conflicts of Interest
e author declares no conflicts of interest.