Abstract
Based on the multimodal wireless virtual reality technology, this article researches and implements two different spatial positioning estimation systems based on intelligent networks and mixed reality devices, which can estimate their position and attitude in space with higher accuracy. Based on the multimodal protocol, an extensible information exchange protocol is designed to meet the requirements of the terminal and the background service in the scenic spot, which realizes the information interaction between the terminal and the background service and supports the realization of system functions. Second, a real‐time data management module is designed for the two types of terminal historical location query and real‐time location query. Through the research and summary of GPS positioning technology and existing matching algorithms, as well as the analysis of positioning errors, a scenic map matching algorithm based on an improved virtual reality model is proposed. Later, in the electronic map design, the traditional linear street view model was improved, the width element of the street view was increased, and the rectangular street view model was introduced. When the candidate road section was selected, the candidate road section was determined by the area intersection method of the error rectangle and the rectangular street view, and the search path was improved, while reducing omissions in the selection of candidate road sections. In the process of adaptive moving target feature learning, it can effectively remove the inaccurate foreground extraction caused by the misjudgement and misdetection of the multimodal background modeling method. This plays an important role in the later trajectory tracking and reduces the uninterruptedness. The simulation results show that the real‐time data is cached in the memory, and the real‐time data is divided and organized on the basis of region, which realizes efficient designated terminal location query, range query, neighbour query, and many other typical real‐time location‐based queries. Finally, using the characteristics of the database management system adopted, through a reasonable design of the database table structure, efficient access to historical data is realized. System test results show that the system has realized multimedia applications, electronic maps, travel notes, and other functions and has a friendly interface, easy operation, and good maintainability and scalability.
Highlights
Tourism, as an important growth point of the country’s economy and an important way of people’s leisure life, has developed rapidly in recent years and has a broad market prospect
The location service formed by the integration of navigation and positioning, mobile interconnection, cloud computing, and other technologies is applied to the tourism industry, which will significantly improve the level of tourist services, refined management, and emergency handling in scenic spots [2]
By combining tourism products and smart terminals, this paper proposes a design and implementation of a smart tourism system based on a multimodal platform
Summary
As an important growth point of the country’s economy and an important way of people’s leisure life, has developed rapidly in recent years and has a broad market prospect. Since mobile smart devices need to locate themselves before use to further perform path planning based on the data collected by sensors and other tasks that require high positioning accuracy, the research needs for spatial positioning technology in smart device applications are increasing [3]. The research of map matching technology based on scenic spot navigation has certain significance and value [5] Among these advanced technologies, location service (LBS) has undoubtedly become the preferred choice of scenic area managers, because LBS is an effective combination of modern technologies such as mobile communication technology, Internet technology, and geographic information system for effectively link people, vehicles, and infrastructure in the scenic area to achieve the effect of joint adjustment and linkage [6]. Based on the C/S architecture, the system has developed server-side software, which solves key technologies such as data exchange protocol design, real-time data management, and efficient data storage and satisfies the real-time location query, group location query, and historical location of 50,000 terminals, personalized information push, and communication access and other functions
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