20230419501. IMAGE ANALYSIS FOR AERIAL IMAGES simplified abstract (AI CLEARING INC.)
Contents
IMAGE ANALYSIS FOR AERIAL IMAGES
Organization Name
Inventor(s)
Aleksander Buczkowski of Warsaw (PL)
Adam Wisniewski of Warsaw (PL)
IMAGE ANALYSIS FOR AERIAL IMAGES - A simplified explanation of the abstract
This abstract first appeared for US patent application 20230419501 titled 'IMAGE ANALYSIS FOR AERIAL IMAGES
Simplified Explanation
The patent application describes a system that includes a data-processing system with a data-storage component, a segmentation component, and a projection component.
- The data-storage component provides an input orthophoto map and an input digital elevation model of an area.
- The segmentation component generates polygons based on the input orthophoto map, approximating different parts of the map.
- The projection component projects the polygons onto the input digital elevation model.
- The projection component also generates a reference surface for each polygon.
Potential applications of this technology:
- Geographic information systems (GIS)
- Urban planning and development
- Environmental monitoring and analysis
- Agriculture and land management
Problems solved by this technology:
- Efficiently segmenting and analyzing large-scale orthophoto maps
- Accurately projecting polygons onto digital elevation models
- Generating reference surfaces for analysis and comparison
Benefits of this technology:
- Improved accuracy and efficiency in analyzing geographic data
- Enhanced visualization and understanding of terrain and land features
- Facilitates decision-making in various fields such as urban planning and agriculture
- Enables better management and utilization of land resources
Original Abstract Submitted
disclosed is a system comprising a data-processing system. the data-processing system comprises a data-storage component, a segmentation component and a projection component. the data-storage component is configured for providing an input orthophoto map of an area and an input digital elevation model of the area. the segmentation component is configured for performing a segmentation step, the segmentation step comprises generating at least one or a plurality of polygon(s) based on the input orthophoto map. each polygon approximates a part of the input orthophoto map. the projection component is configured for performing a projection step and the projection step comprises projecting the polygon(s) on the input digital elevation model of the area. the projection component is further configured for performing a reference surface generation step, the reference surface generation step comprising generating a reference surface for each of at least some of the polygon(s). further, a corresponding method and a corresponding computer-program product are disclosed.