Solutions

Conducted using manned aircraft equipped with cameras, LiDAR, or other remote sensing instruments to capture geospatial data over large areas. This method is commonly applied in mapping, environmental monitoring, and regional planning.

Uses unmanned aerial vehicles (UAVs) to collect high-resolution imagery and geospatial data at lower altitudes. This approach is cost-efficient, highly adaptable, and particularly suitable for site inspections, construction monitoring, and small- to medium-scale mapping.

Focuses on the precise measurement and delineation of land boundaries, property ownership, and physical features. The resulting data is critical for legal documentation, cadastral management, development planning, and construction activities.

Records both natural and man-made surface features, including elevations, slopes, and terrain contours. These surveys are essential inputs for engineering design, infrastructure development, and environmental assessments.

Involves the acquisition of Earth observation data through orbiting satellites equipped with optical or radar sensors. It provides large-scale spatial coverage, supporting applications in urban growth analysis, agriculture monitoring, and disaster management.

Measures and maps the underwater topography of seas, rivers, reservoirs, and lakes using sonar or LiDAR systems. It is essential for navigation safety, dredging operations, marine engineering, and aquatic environmental studies.

Involves the precise measurement and inspection of industrial facilities, equipment, and plant sites. This type of survey supports operational safety, facility layout optimization, and maintenance or expansion projects.

Concentrates on mapping and evaluating key assets such as roads, bridges, utilities, and railways. The data collected supports construction, ongoing maintenance, and long-term urban infrastructure planning.