Transforming land development with survey-grade topographic mapping, 3D modeling, and spatial data analysis using drone technology.
Engineering-grade datasets formatted seamlessly for your existing CAD, GIS, and BIM workflows.
Single 2D top view georeferenced and scaled image of the site is generated from drone data.
Digital Surface Model (DSM) represents elevation of the surface with all objects on DSM for example, trees, buildings, solar and other structures and elevation of the terrain.
A DTM created from drone data provides a detailed view of the Earth's surface. High-resolution aerial imagery and advanced photogrammetry produce DTMs that represent the elevation of the terrain.
Slope map generated using drone data that illustrates the steepness or degree of incline of terrain across the area. It helps to understand and manage landscapes, offering valuable insight.
A 3D point cloud generated using drone data is a detailed, three-dimensional representation of a terrain or structure created by capturing millions of individual data points from aerial surveys.
A 3D model generated using drone data is a sophisticated digital representation of physical spaces. These models provide a comprehensive view of terrain or structures, offering valuable insights across various industries.
Analyze rainwater flow provides valuable insights into how water moves across a landscape to identify potential water accumulation areas and plan effective drainage systems to manage water efficiently.
A spot elevation on a map denotes the height of a specific point above mean sea level. It provides the exact elevation of a location. This information is crucial for planning and designing.
Contour provides a detailed and accurate representation of terrain elevations through contour lines. By capturing high-resolution elevation data and generating contour maps, drones offer essential planning insights.
Topographical mapping is a detailed representation of the natural and artificial features of a landscape like built-up areas, roads, water bodies, electric poles, trees, bridges, terrain elevation, and contours.
Utilize drone technology for precise volume measurements of stockpiles, materials and excavation of earth work.
Drone technology deliver precise area and distance measurements quickly, using advanced aerial technology to create detailed maps and models for effective project planning.
Drone technology enable accurate tree counting and canopy marking, providing detailed insights into forest health and biodiversity with minimal disruption to the environment.
Drones data generate precise terrain data for cross-section and L-section measurements using high-resolution imagery and LiDAR technology, enhancing efficiency and accuracy in analysis.
Drone technology helps to assessing crop health by capturing high-resolution multispectral data, allowing for precise analysis of plant conditions, identifying stress areas, and facilitating loss assessment.
Combining centimeter-level precision hardware with industry-leading software.
Real-Time Kinematic positioning ensures absolute global accuracy down to the centimeter level.
Ground Control Points established using survey-grade DGPS rovers for uncompromised data validation.
Active laser scanning technology to penetrate dense vegetation and capture the true ground surface.
Processing via industry standards (Civil 3D, ArcGIS) to seamlessly integrate into your workflow.
From initial planning to final CAD deliverables
Defining mission parameters, flight lines, and safety protocols based on site geography.
Establishing highly accurate Ground Control Points (GCPs) using DGPS equipment.
Executing automated drone flights to capture overlapping high-res images or LiDAR data.
Stitching data via photogrammetry software to generate orthomosaics and 3D models.
Extracting vectors, contours, and features to create final engineering-ready CAD/GIS files.
Get survey-grade data faster, safer, and more cost-effectively.