Local Cultural IP Development and Cultural Creative Design Based on Big Data and Internet of Things

Relying on the development of cultural tourism resources and the development of cultural tourism industry to achieve regional industrial revitalization is an important way of implementing postdisaster reconstruction in areas suffering from major natural disasters. To this end, this article proposes a local cultural IP development and cultural creative design method based on big data and the Internet of +ings to explore new ideas for postdisaster reconstruction in such areas. First, we collect traditional and modern cultural element data and carry out data cleaning and processing through the Internet of +ings. Second, we use data mining to perform multilayer collaborative processing on regional cultural data based on ontology modeling and tensor decomposition. Based on our approach, local cultural categories can be effectively screened and filtered out. Finally, we establish a cultural IP development model based on the Internet of +ings and verify the validity and applicability of the model through system testing and simulation analysis.


Introduction
e deep integration and development of cultural tourism have become a major national strategy in the new era [1]. Culture is the soul of tourism, and tourism is an important carrier of culture. From the perspective of theory and industrial practice of culture and tourism research, the simple development and utilization of cultural resources and tourism resources are no longer adapted to the current development trend of the world's cultural tourism industry [2]. Since the 1970s, the in-depth involvement of multiple disciplines and industries represented by management, culture, history, geography, sociology, political science, and economics has made significant development in cultural and tourism industry [3,4]. Since the 21st century, "promoting tourism with culture, excelling culture with tourism, and integrating culture and tourism" has become an important trend in the development of global cultural tourism industry [5].
It is important to effectively coordinate the development of national cultural undertakings, cultural industries, and tourism and effectively improve the country's cultural soft power and influence [6,7]. e research on cultural tourism resources in western academia mainly focuses on the constituent elements of cultural tourism resources and their utilization and development. In the aspect of research on the constituent elements of cultural tourism resources, Robert Dodo explained the relationship between the elements of Ashanti cultural resources and the perception and utilization of resources from the perspectives of cultural geography and cultural anthropology [8]. omas F King proposed that the evaluation of influence elements of American "cultural resources" should not be limited to archaeological sites or historical buildings, but more widely, effective methods should be used to use more diverse evaluation dimensions [9]. ese methods should be used while determining whether a project is implemented or not by considering its impact on cultural resources in accordance with relevant laws and regulations [10]. With the continuous increase in people's leisure time and the vigorous development of tourism, the integration of cultural industry and the tourism industry continued to deepen. Some scholars have put forward their own views on this deepening of ties between these two industries. Wiener [11] compared and observed the development trends of the cultural industry and tourism in the United States and pointed out that cultural tourism's resources are a key element in strengthening the cooperation between these two industries to cultivate mutually beneficial new markets. Relying on the development of cultural tourism resources and the development of cultural tourism industry to achieve regional industrial revitalization is one of the important ways to implement postdisaster reconstruction in areas suffering from major natural disasters [12]. e postdisaster reconstruction in different regions of the world contains government practices in the development of local cultural tourism resources. More and more regions suffering from natural disasters are developing the cultural tourism industry by designing local cultural tourism resources to revitalize the local economy, politics, society, and culture [13,14]. As a whole, the rational development of local cultural tourism resources can produce better economic and social benefits to the disaster-stricken areas.
For this purpose, governments at all levels mobilize the available forces by performing their own functions to guide and promote the rational and efficient development of local cultural tourism resources and the healthy development of cultural tourism industry from different perspectives [15]. e major contributions of this paper are as follows: (i) We propose a local cultural IP development and cultural creative design method based on big data and the Internet of ings to explore new ideas for postdisaster reconstruction in areas suffering from natural disasters. (ii) We evaluated our work comprehensively by performing experimental results. ese results justify the validity and efficiency of our work. e rest of this paper is organized as follows. In Section 2, we discuss an overview of related research on the Internet of ings and local cultural IP development. In Section 3, we discuss the classification and selection process of local cultural data based on data mining. In Section 4, we discuss the applicability of the model and the comparative testing process. Finally, we discuss the limitations of this article and future research prospects in Section 5.

Related Search
In this section, first we provide a comprehensive literature overview on the Internet of ings followed by local cultural IP development.
e presentation of literature review on Internet of ings lays a solid basis for the justification of using it for local cultural IP development.

Internet of ings Technology.
e Internet of ings (IoT) edges the gap between real-world and virtual world by connecting physical world devices with the Internet. For example, connecting radio, television, microwave, and similar devices with the Internet enable all ordinary devices to exchange their data [16,17]. e Internet of ings is generally a wireless network, but because everyone is around, there can be as many as one thousand to five thousand Internet of ings devices, so the Internet of ings system may contain 500 to 1,000 trillion Internet of ings devices. In the Internet of ings system, everyone can use electronic tags to connect real objects to the network, and in the Internet of ings system, owners can find out their specific locations. Central computers for the Internet of ings can be used to centrally manage and control equipment and personnel and can also remotely control related equipment in the home and can also perform location search and item antitheft and so on, similar to an automated operating system, and less through mobile phones, the data can be integrated into big data to realize the connection between objects and objects [18,19]. In the perception layer, if we need to obtain information about items in the Internet of ings system, we need to read the relevant tags attached to the items through a reader. e privacy of tag data will lead to the leakage of key information of the entire network which has a devastating impact. erefore, label privacy is one of the important objects for privacy protection in the Internet of ings [20]. Privacy includes information privacy and location privacy. Information privacy means that an attacker cannot obtain private information such as the identity of the tag and the reader and other information related to the user of the tag or the reader [21].

Local Cultural IP Development.
In a broad sense, cultural tourism as an activity experience for people has existed in ancient times. Since the 1980s, cultural tourism has become an important part of the international tourism market [22,23]. From the perspective of the resource itself, according to the interpretation of the "Modern Chinese Dictionary," resource is a natural source of production and living materials and is the basis for human survival and social development. Marx also pointed out that "Labor and land are the two primitive forming elements of wealth." Engels believed that the creation of wealth requires materials provided by nature and the transformation of human labor, both of which are indispensable. It can be seen that resources refer to substances or materials formed in nature that can be used for human survival and social development. From the perspective of application field, cultural tourism resources, as the name suggests, are the resources used in the cultural tourism field, which can be regarded as natural, cultural, and social resources used in the "cultural creation" behavior of the tourism business main body [24,25].
From the perspective of resource attributes, cultural tourism resources have the dual nature of both cultural resources and tourism resources [26,27]. From the perspective of cultural resources, cultural resources include various resources that people can use in cultural production or activities. Cultural tourism activities from the subject "cultural creation" to the object "cultural consumption" all contain the characteristics of cultural resources. e difference between cultural tourism resources and cultural resources lies in the application of the subject of "cultural production" in the tourism field. From the perspective of tourism resources, foreign countries call tourism resources tourism attractions, that is, "any natural, humanistic object, or other factors that can attract tourists to generate tourism motives and may be used to develop tourism activities can be called tourism attractions [28]. erefore, the difference between cultural tourism resources and tourism resources is that they can satisfy tourists' pursuit of cultural knowledge and spiritual level to a greater extent and can bring certain economic, social, and cultural benefits to tourist destinations [29]. e "postdisaster" discussed in this article is a broad concept. After the occurrence of natural disasters in the sense of time and space, the impact of natural disasters on Beichuan society, economy, and culture is the state to be reconstructed as shown by the industrial foundation, local culture, and residents' social psychology. Based on this, this article intends to analyze and discuss the development of local cultural IP and the design of cultural creation from the perspective of the development of local cultural tourism resources after the disaster [30].

Classification and Screening Process of Local Cultural Data Based on Data Mining
In the process of using machine learning methods to classify cultural data, data preprocessing is an important preprocessing stage, which has an important impact on the back-end classification results. Data preprocessing can transform the initial problem from high-dimensional space to low-dimensional space, thereby reducing computational complexity and improving classification efficiency. Correspondingly, it can eliminate irrelevant or redundant features, prevent the classifier from overfitting, and enhance the quality of the classification algorithm [31].
MultiSURF is an algorithm based on Relief. It is an algorithm that judges the importance of elements by weighting them. Each feature is assigned a different weight according to the degree of association between each attribute and class label, where the weight is less than the setting the elements of the threshold value which will be deleted. MultiSURF pseudocode is given in Figure 1. First, the operator randomly selects a sample of R, from the training set, and then searches for nearest neighbor samples of the same category as R and nearest neighbor samples of different categories from R [32]. It is worth noting that MultiSURF uses the boundary value Tear to determine which instances will be regarded as neighbors, R is the average pairwise distance between other instances, and a is the cost between the target instance R and all other instances. e pseudocode flow chart of the MultiSURF algorithm is shown in Figure 2.
e MultiSURF algorithm is very efficient and does not interfere with the data type. It assigns different weights based on the performance of a single feature in the calculation phase to identify the category and then uses the set weight threshold to select a feature subset: y). (1) However, in practical problems, a single feature usually cannot effectively classify categories. Correspondingly, the algorithm does not consider the correlation between features. erefore, the downside of the algorithm is that it cannot eliminate redundant features well.
Since redundant features do not increase data information, they can affect the confidence of model classification, and the effect of redundant features will also be superimposed on the model, making the model effect worse.
Genetic algorithm is one of the most advanced algorithms for classification and screening. It is a type of the search heuristic method, inspired by Charles Darwin's theory of natural evolution, reflecting the process of natural selection. e process of natural selection is to select the most suitable individual from the population. e offspring continuously produced in this process will inherit some of the characteristics of the parents and add some characteristics to the next generation.
If parents have better adaptability, their offspring may be stronger than their parents and have a better chance of survival.
is process will be repeated continuously, and finally, the most suitable generation will be found. In this process, as in the case of biological evolution, it has a mechanism to select suitable chromosomes in each generation. In order to simulate the evolutionary process, the selected chromosomes undergo genetic operations, such as crossover and mutation, and finally select the most suitable individuals for reproduction. In order to produce the next generation of offspring, this concept can be used to search for problems, that is, to prepare a set of solutions to the problem and select the best solution from it.
e fitness function determines the survivability of an individual (the ability of an individual to compete with other individuals). Each individual will get a fitness value through calculation, and the probability of an individual being selected for reproduction is based on its fitness score. e main purpose of the selection phase is to select the most suitable individuals and let them pass their genes to the next generation. Figure 1 shows the algorithm flow of the local cultural IP development model based on data mining.
A pair of individuals (parents) is selected based on their fitness scores. Individuals with higher scores have more chances to be selected for reproduction. Crossover is the most important stage in the genetic algorithm. For each pair of parents to mate, an exchange point needs to be randomly Mobile Information Systems selected from the genes for exchange. Offspring are created by exchanging parental genes until the exchange point is reached, and then new offspring are added to the population.
In some of the new offspring formed, some of their genes may be mutated with low random probability. is means that certain bits in the chromosome can be flipped, and the main purpose of mutation is to maintain the diversity within the population and prevent premature fusion. As the algorithm continues to repeat, if the population has converged (the algorithm does not produce offspring that are significantly different from the previous generation), the algorithm terminates.
As a search heuristic algorithm for solving optimization, the genetic algorithm is one of evolutionary algorithms. When the number of iterations of GA continues to increase, the overall fitness value of each generation will gradually converge to the local optimal solution, so the selected optimal feature subset can be obtained. In addition, GA usually uses the accuracy of the classification learning algorithm as a fitness function.
In order to facilitate subsequent experiments to compare the pros and cons of the three different classifications in the screening algorithm and to verify the performance of the MSGA feature selection algorithm proposed in this paper, we used the three algorithms to select their respective feature subsets, of which the MultiSURF method selected 8 Features, 10 features were selected based on the GA-wrapped method, and 8 features were selected by MSGA. e 8 features selected using the MultiSURF feature selection algorithm are shown in Table 1.
We use the MultiSURF algorithm to sort all the features and delete some features that are not relevant to the category. e 2 features selected in the first step of random initialization are used as the initial population.

Mobile Information Systems
Calculate the fitness of an individual, that is, first decode the individual, and then use the reduced sample set to calculate the fitness. According to fitness value selection, crossover and mutation population can be calculated using the following equation: We add all the new individuals from the previous step to the population to form a new population.

Applicability and Comparative Test of Cultural IP Model
In this chapter, we will conduct practical and comparative tests on the local cultural IP development and cultural and creative design models based on the Internet of ings and data mining established above. e test will further verify that the improved MultiSURF combined with the genetic algorithm can have a more stable and applicable performance. We will mainly analyze the scalability and accuracy

Local Cultural IP Development Data
Sources. e benchmark dataset used in the experiment in this section is the scoring dataset provided by the Web scope project team. In this section, the experiment extracts a subdataset containing nearly 20,000 scoring records from the scoring dataset, according to the principle of random sampling, and selects 15,000 cultural data as the test set, and its data size is the same as another score provided by the project team. e datasets are comparable.

Local Cultural IP Development Model Test.
e collected data are first classified by the MultiSURF algorithm, and the final clustering result is 9. e classification description of  this algorithm can be divided into 9 categories, namely, geographical resources, ancient texts, historical relics, ethnic education, humanities and economics, social customs, ideology and religion, culture and art, regional news, and other categories. 9 is the clustering center k of the K-means algorithm, and the manually classified data are also 9 categories, indicating that the MultiSURF algorithm classification result is correct. e clustering results of the MultiSURF algorithm under different k values are shown in Figure 3.
For the final clustering results, it can be seen from Figure 3 that the directions of historical cultural relics, social customs, and so on account for a relatively large proportion, and the abovementioned directions are considered to have the potential and value of cultural IP development. In the economic category, there are documents in the category of historical relics. e influence of sample factors on the local cultural IP development algorithm is shown in Figure 4.
When clustering datasets of the same size, as the number of points increases, the time consumed by the algorithm  en, perform K-means algorithm clustering, input the cluster center value as 9, as the initial cluster center, and obtain the final clustering result. Because the MultiSURF algorithm determines the clustering center, there is no need to repeat iterations, and the time consumed decreases faster. At the same time, as the number of nodes increases, the workload of a single node is reduced, making the overall clustering time less and less. e model performance of the local cultural IP development model under different k values is shown in Figure 5. e larger the expansion ratio is, the more advantageous the parallel algorithm is. e speedup comparison result of the MultiSURF algorithm, K-means, and PSO algorithm is shown in Figure 6.
It can be seen from Figure 6 that as the number of nodes in the cluster increases, the utilization of the cluster becomes higher and higher, but the MultiSURF algorithm increases faster than the K-means algorithm, indicating that the improved algorithm is suitable for a distributed environment. Speedup is the ratio of the time required for a single node to the time required for a cluster of r nodes. However, due to the limitation of nodes, the speedup ratio cannot be increased without limit. e expansion ratio can test the efficiency of algorithm parallelization. Figure 6 describes the change trend of the expansion ratio of the K-means algorithm and the MultiSURF algorithm under the Data2 dataset as the number of nodes increases. In the same dataset and cluster environment, the expansion ratio of the K-means algorithm and the MultiSURF algorithm has the same trend. e difference is that the MultiSURF algorithm is faster than the K-means algorithm and approaches a certain fixed value, which shows that the MultiSURF based on Spark algorithm has better scalability.

Conclusion
Since the beginning of 21st century, "promoting tourism with culture, commemorating culture with tourism, and integrating culture and tourism" has become an important trend in the development of global cultural tourism industry. is paper combines stakeholder theory along with new public service theory and other related theories, using literature research, field investigation, case analysis, and other research methods to analyze the development of different types of cultural tourism resources before and after the disaster. Limited by the level of personal research ability and objective reality, this paper still has some areas to be improved. First, the literature review is not comprehensive and in-depth, and the materials and data used in the paper may have lags and limitations. Future research may further tend to integrate the above research fields to varying degrees. We will comprehensively use economics, tourism, cultural studies, management, sociology, and other multidisciplinary research perspectives and methods, combined with a specific research object for related research.
Data Availability e datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

Conflicts of Interest
e authors declare that they have no conflicts of interest.