Green Technology Innovation Behavior of Cable Enterprises Based on Fuzzy Analytic Hierarchy Process of Internet of Things

With the rise of global sustainable development, green technology innovation has also become the focus of academic research.*is article aims to conduct research based on the abstract concept of the Internet of *ings behavior based on green technology. A matrix is constructed based on the collected sample data to calculate and analyze so as to intuitively grasp the current situation of the entire industry. From the above data calculated according to the fuzzy hierarchy comprehensive evaluation method, it can be seen that the comprehensive score of the green technology innovation behavior of cable companies is 64.261 points, which belong to the left end of the range between 60 and 80 in the rating scale;, in other words, the company’s innovation capability has a certain degree of stability.*e degree has just reached a “high” level, and there is still a lot of room for improvement.*e efficiency weight (0.3343) score of the enterprise’s benefit distribution mechanism is relatively low at 55.919. For managers of cable companies, green innovation is fundamental, and the awareness of green innovation should be improved to further promote the development of green technology innovation for the entire cable company.


Introduction
In recent years, green and low-carbon have become the main trends in the development of global technological innovation. Contemporary cable companies also focus on green technology innovation and regard it as one of the research priorities in the field of technology innovation for cable companies. Compared with traditional technological innovation, green technological innovation has greater ecological and economic value. It is the product of both social and economic development and environmental protection from pollution. How to meet the green consciousness innovation in the industrial process of raw materials, production, transportation, storage, and reuse of waste materials has become a major challenge in the operation of contemporary cable companies.

Meaning.
Compared with traditional technological innovation, green technological innovation has greater ecological and economic value. In general, management innovation and technological innovation for environmental protection purposes are collectively referred to as green technological innovation. e unprecedented green technology innovation is linked with the fuzzy analytic hierarchy process, and a platform is built at the level of the Internet of ings, which meets the diversified standards.

Following Preparing Works.
is research aims to promote and enrich the scientific debate about the phenomenon known as the Internet of ings (IoT) from a management perspective.
rough the perspective of management and innovation literature, Caputo A studied the main facts of the Internet of ings and developed a conceptual framework to explain its development. e framework is then applied to the case of three-dimensional (3D) printing technology for additive manufacturing. However, the relevant aspects of green technology innovation are not reflected in the research [1]. Fuzzy analytic hierarchy process (FAHP) and analytic hierarchy process (AHP) of calculation process are a systematic analysis method that combines qualitative and quantitative.
is method provides a basis for quantitative evaluation indicators for selecting the best design and has been widely used. ZhiQiang Ma mentioned that in the fuzzy analytic hierarchy process, when making similar comparisons between factors, because uncertain linguistic variables cannot be converted into definite values, the concept of triangular fuzzy numbers should also be introduced. However, due to the complexity of the algorithm for constructing fuzzy AHP, it has not been popularized in many fields [2]. In studying the basic idea of fuzzy analytic hierarchy process, Ehsan N established a hierarchy structure from bottom to top. He proposed that when making a decision, first a multilevel hierarchical model is complied for each element of the decision-making problem, then a fuzzy judgment table is created, then the relative importance of each element is calculated, and finally a scientific basis is provided for decision-makers to choose. However, the accuracy of the data sources in the research will greatly affect the final scoring and analysis results, making the screening of statistical data occupy most of the research time and energy [3].

Innovation in Research.
e innovations of this research are mainly reflected in the following aspects: (1) On the basis of literature research, the definition of "green technological innovation" has been improved, and the definition, concept, and connotation of green technological innovation have been refined by taking the characteristic socio-economic development and environmental protection as the starting point. On this basis, a hierarchical model is built based on the Internet of ings. (2) e fuzzy analytic hierarchy process is used to solve the problem that the concept of innovative behavior research is difficult to directly measure. Constructing abstract problems with algorithm models is convenient for intuitive grasp.

IoT System
Architecture. e structure of the Internet of ings system can be divided into the perception layer to obtain data, the network layer to transmit information and preprocessing, and the application layer provides services to users, a total of three layers. e realization of the tasks and services of the corresponding layers needs to be supported by the relevant technologies of each layer. e relevant architecture diagram is shown in Figure 1 [4].
Among the Internet of ings technology, RFID technology and ZigBee technology are important components [5,6], and they have been widely used and studied in various fields. Compared with traditional tags, Table 1 shows the technical advantages of RFID over traditional tags.
In recent years, as our country attaches great importance to the Internet of ings, RFID technology is the cornerstone of the Internet of ings, and its various technologies have made rapid progress in our country and have begun to be applied in many fields. With the rise of the application of the Internet of ings in contemporary society, RFID technology, as an important part of it, will continue to maintain a trend of rapid development in the future social development, and the areas covered are increasing day by day [7].
In the ZigBee network, ZigBee nodes need to complete specific network function missions and corresponding parameter settings [8]. According to the functions that the ZigBee node needs to realize, it can be divided into three parts: router, coordinator, and terminal node [9].

Router.
After the router joins the ZigBee network, the router mainly completes the task of data transmission in the ZigBee network. Under normal circumstances, in order to ensure the stability and reliability of the ZigBee network, the router must be in working mode, so the power consumption of the router requires more in-depth research [10].

Coordinator.
e function of the coordinator is relatively complete, which can realize the connection control of the overall network. After selecting the appropriate channel and network symbol, it can complete the startup and create the network. e coordinator plays the role of a router after the basic work such as creating a network is completed [11] and performs functional tasks such as information transmission and storage [12,13].

Terminal Node.
e terminal node is used to realize the collection of external environment or human body sign information. In order to reduce the energy consumption of the terminal node, it can usually be set to a sleep mode or a wake-up state. One of the topological structures can be selected in the overall network construction, or they can be combined to form a new topological structure according to the advantages of each topological structure [14]. e topological structure used by the system is different, the corresponding model is different, and the parameter settings of each node in the network are also different. Table 2 compares the characteristics of three different ZigBee topologies [15,16].

Analytic Hierarchy Process.
e analytic hierarchy process has the characteristics of simple calculation [17,18]. e shortcomings of the general process of the analysis level are solved; that is, the consistency of the standard table cannot meet the requirements, and the scale is relatively cumbersome [19,20]. Introducing the fuzzy analytic hierarchy process into the business stability measurement model makes the stability selection measurement process clearer and the calculation process easier [21,22], thus providing a simple and effective method for the measurement of enterprise stability [23,24]. Figure 2 shows the decision structure diagram of the analytic hierarchy process [25]. Figure 3 shows a more common three-level (multilevel can be analogized) structure model.

Build a Hierarchical Model.
is is a grouping and stratification of multiple evaluation indicators according to the nature of the problem and according to the top level (objective a), the middle level (first-level evaluation index b i , i � 1, 2,. . ., m), and the bottom level (two A three-level (or multilevel) evaluation index system arranged in the form of C ij , i � 1, 2, . . ., m; j � 1, 2, . . ., n i ). en, we build the fuzzy judgment matrix. Data content realizes password through encoding and protection, and internal information is not easy to be forged and changed To construct the fuzzy evaluation matrix, first, the single factor in the hierarchical structure model in Figure 3 needs to be considered. Cij (i � 1, 2,. . ., m; j � 1, 2,. . ., n i ) is a single factor evaluation. From the factor b i (i � 1, 2,. . ., m), focusing among the elements of the belonging relationship, C ij has the membership degree of a jj to the judgment set v j (j � 1, 2,. . ., n), so that the single factor judgment set of the j-th element C ij under the b i grouping is obtained: (1) In this way, the evaluation set of nj factors constructs an evaluation matrix D m (m � 1, 2,. . ., i); that is, each evaluated object is determined from b i (i � 1, 2,. . ., m). e fuzzy relationship to C, that is, the matrix is as follows: Specifically, a jj`r epresents the frequency distribution of the i factor C ij on the i`th comment v j`u nder the b i grouping.

Determining the Weight of the Green Technology Innovation Stability Measurement Index of Cable Companies.
e index weight of the green technology innovation stability measurement index of the cable enterprise will be determined by the fuzzy analytic hierarchy process, taking into account the application level. is article will use the priority relationship matrix and the fuzzy judgment matrix as the basis to introduce the fuzzy consensus judgment that is inherently consistent.
Specific steps are as follows. First, the optimal matrix D needs to be constructed: e optimal matrix D is defined as a three-valued matrix (0, 0.25, 0.5) on a finite universe C�(c1, c2,. . ., cn). Obviously, D is a fuzzy complementary matrix.
Second, the fuzzy consistent judgment matrix G is constructed: (4) After the optimization table is established, it is converted into a fuzzy consistency matrix. e fuzzy consistent judgment matrix G is a multivalued matrix G � (g ij ) ni×ni on the finite universe A� (a1, a2,. . ., a n ) and 0 < g ij < 1. G ij shows the relative importance of a i to a j : if 0 < g ij < 0.25, it means that aj is more important than ai, and the smaller the g ij is, the more important a j is than a i ; if g ij � 0.25, it means that ai and aj are equally important; if 0.25 < g ij < 0.5, it means that ai is more important than aj, and the larger the g ij , the more important it is.
In the conversion process, the preferred matrix D � (d ij ) ni×ni needs to be summed by rows, namely: e jk , j � 1, 2, . . . , n j . (5) en, Including a coordinator and multiple terminal devices, the network structure is easy to maintain and has good real-time performance, but there is only one data transmission path, and the coordinator may affect the transmission of network data, which can be used in data transmission small scene Cluster topology e structure is complex, and the network can be transmitted in a multihop form; it has the performance characteristics of self-organization and self-coordination Mesh topology e information is sent in time, the stability is good, and the storage space required is large. At the same time, the cost of maintaining the network is more than more expensive, and it can be used in places where the designed ZigBee network is more complicated The purpose of the decision Factors to be considered, criteria for decision-making Alternatives in decision-making  Mobile Information Systems e final matrix G � (g ij ) ni×ni is the fuzzy consistency matrix.
en, the matrix's G � (g ij ) ni×ni max is calculated. e normalized feature vector is the standard weight set wi T .

Layered Comprehensive Evaluation.
After determining the index weights of each layer in the evaluation system, the lower-level indicators need to be adjusted according to the characteristics of the constructed index system.
According to the fuzzy judgment matrix D m established above and the calculated weight set w T i , the evaluation vector B j of the second layer is calculated: 3.4. High-Level Comprehensive Evaluation. Using the results of the hierarchical comprehensive evaluation, the comprehensive evaluation matrix D can be obtained. Based on this, the comprehensive evaluation can be obtained. Valence vector is as follows: e hierarchical evaluation vector B j and the comprehensive evaluation vector C are, respectively, multiplied by the comment score set V to obtain the evaluation score of each index, and finally the evaluation result is analyzed.

Questionnaire Survey and Algorithm Construction.
is article uses a questionnaire survey method to issue questionnaires to 15 experienced experts in the industry. e comprehensive evaluation matrix B is obtained using the results of the hierarchical comprehensive evaluation, W t and B are multiplied to obtain the comprehensive evaluation vector C, and finally the hierarchical evaluation vector B j and the comprehensive evaluation vector C are, respectively, multiplied by the comment score set V to obtain the evaluation score X i (i � 0, 1, 2, 3) of each index as follows:

Model Running
Results. From the above data calculated based on the fuzzy hierarchy comprehensive evaluation method, it can be seen that the comprehensive score of the green technology innovation behavior of cable companies is 64.261 points, which belongs to the left end of the range between 60 and 80 in the rating scale, that is, the stability of the alliance has just reached a "high" level, and there is still a lot of room for improvement.
Among them, the effectiveness of the company's trust mechanism (weight: 0.4539, the same below) scored 71.628, which is at a relatively high level. is shows that the sample  Mobile Information Systems company in the questionnaire survey strictly followed the contract, strictly protected the cooperation secrets (0.2131), and accumulated a good social reputation (0.4539) for the company itself in the process, and also increased the number of alliance members. e interest dependence (0.3343) has made a great contribution to the continuity and stability of the green technology innovation behavior of cable companies. e company's conflict resolution mechanism effectiveness (0.2131) score of 63.791 has just reached a high level. is is mainly due to the high degree of consistency (0.5000) of the strategies of experts and scholars in the division of labor at the level of green technology innovation. Finally, the company's benefit distribution mechanism effectiveness (0.3343) score of 55.919 is relatively low. Judging from the judgment matrix X3, it is mainly because the industry's collective benefit maximization (0.2131) awareness is generally weak and industry managers should pay attention to this point and propose solutions to improve the stability of industry practitioners, as shown in Figure 4.

Conclusion
is article focuses on the Internet of ings technology. rough the measurement of the sample company and sample data, it can be found that the company's overall stability score is 64.261, indicating that the stability of the green and innovative industry constructed by the company has just reached a relatively high level, which is consistent with the reality, but there are still many problems. ere is a lot of room for improvement, especially in the management and control of the effectiveness of the benefit distribution mechanism (55.919 points) In addition, the alliance's trust mechanism effectiveness score of 71.628 has reached a high level, while the conflict resolution mechanism's effectiveness score of 63.791 is not high, but it has reached a relatively satisfactory level, but there is still room for improvement. e results of the model operation also show that when alliance managers want to improve the stability of the alliance, they should focus on the design of the alliance's benefit distribution mechanism. e limitation of this article is that it is limited by the author's professional level and the small sample size. During the operation of the fuzzy system, there must be other important indicators that are not included in the model of this article. erefore, this paper constructs this concept to make up for the shortcomings of the model. In future research, the sample size can be expanded, and more professional opinions and data samples of experts in green innovation technology can be referred to, and the research on green technology innovation behavior of cable companies can be analyzed from a more comprehensive perspective.

Data Availability
No data were used to support this study.

Conflicts of Interest
e authors declare that there are no conflicts of interest.