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Articles | Volume XLII-3/W10
https://doi.org/10.5194/isprs-archives-XLII-3-W10-1139-2020
https://doi.org/10.5194/isprs-archives-XLII-3-W10-1139-2020
08 Feb 2020
 | 08 Feb 2020

THE METHODOLOGY AND APPLICATION OF NEW THREE-DIMENSIONAL GUIDE SYSTEM AND INTELLIGENT SERVICE IN INTELLIGENT SCENIC SPOT: A CASE STUDY OF QIXING SCENIC SPOT IN GUILIN CITY, GUANGXI, CHINA

B. S. Li, S. K. Wu, X. Li, J. H. Guo, B. L. Zhu, and W. G. Yang

Keywords: Intelligent Service, Three-dimensional Tour Guide System, Three-dimensional Map, 3D Symbol System

Abstract. Nowadays, 3D navigation systems and intelligent services are costly to use, and the accuracy of intelligent navigation does not meet the needs of tourists, and the practicality is not strong. Based on the current situation of the construction of the smart scenic navigation system and the actual needs of tourists, this study determines the main principles and methods of the tour guide system and intelligent services. Taking a certain scenic spot as the specific research object, the A* algorithm is used to solve the path. By optimizing the online gracing service of the arc gis server network, the appropriate data interpolation method is used to improve the accuracy of the elevation data of the scenic spot, and the characteristics of the three-dimensional symbol system are combined. The 3D symbol design system is optimized, and a high-precision 3D navigation map model is established. Finally, the corresponding 3D tour guide system and scenic area intelligent service are designed based on this, and the principle and application flow of the intelligent scenic area navigation system construction are summarized. The three-dimensional map model and its navigation system designed by this research institute reduce the risk of tourists during the tour, improve the quality and efficiency of the tour, and provide a practical service optimization solution for the smart scenic three-dimensional navigation system. The construction and use cost of the high-precision three-dimensional navigation system in the scenic spot is reduced.