Cadastral survey is the mother of cadastral registration, the most basic work of cadastral finishing, and the foundation of national construction and socio-economic development, control points are the basis and legal source of cadastral survey, and searching control points is a necessary work for cadastral survey. However, the control points are often hidden by obstacles or changes in the surrounding environment, so it takes more manpower and time to confirm the existence of the control points, and may even return without success, resulting in a waste of resources. The main objective of this study is to investigate the application of Augmented Reality (AR) technology, combined with the multi-system real-time dynamic positioning service of Taipei CORS and the installation of APP application on smart mobile devices, and to investigate the convenience of searching control points in Augmented Reality dynamic space and the advantages, disadvantages and limitations of the future application in measurement field. In this experiment, we compared the search control point method in the survey procedure with the mobile vehicle camera and augmented reality, and the time and distance required to record the multi-system D-GNSS real-time dynamic positioning method connected to the Taipei CORS service with the traditional paper-based method, to test whether the augmented reality technology can help surveyors reduce the operating time and physical load. When the surveyor is far away from the root point, the surveyor can refer to the direction indicated by the AR root system on the mobile carrier to search for it. When the surveyor is close to the root point, the surveyor can use the inverse distance from the AR screen to assist and further confirm the relationship with the root point. Through this combination, RTK can provide high-precision positioning information and AR can interact with the real environment through virtual information, thus realizing more accurate applications. In the future, the AR map root system can be combined with the high-precision electronic global satellite real-time dynamic positioning system (e-GNSS) constructed by the National Land Survey and Mapping Center of the Ministry of the Interior, and will be available for use by local government offices outside of Taipei City and various government-related metropolitan and engineering agencies to save time in locating control points, improve survey efficiency, and promote the development of public sector mapping.