This paper explores the use of an advanced airborne imaging system equipped with GPS for vertical image acquisition. The system utilizes a high-resolution camera mounted on an aircraft to capture vertical images, which are tagged with GPS time and the precise position of the aircraft. The collected images are processed along with the route data and stored in an image database linked to a GIS. The study focuses on the accuracy of the system, taking into account various factors such as GPS positioning, camera parameters, and aerial triangulation. Kinematics GPS is used to determine the position of the aircraft and image stations within 10centimeterss. Aerial triangulation is used to adjust for additional camera parameters using GPS data for perspective canters. The primary application of this system is expected to be in mapping utility lines, roads, and pipelines. Additionally, the system can be used for generating digital elevation models and orthophotos for planning applications. The results of the study will provide insights into the effectiveness and potential applications of the advanced airborne imaging system. This thesis will be beneficial for researchers and professionals in the field of remote sensing, geospatial analysis, and mapping.

Aerotriangulation, Camera, Digital Systems, GPS, Integrated System, CNN, Aerial Images, Clump Normalization