2D Orthomosaic Model
2D Orthomosaic Modelling involves creating a detailed and accurate two-dimensional image map from aerial or satellite imagery.
This process uses advanced photogrammetry and image stitching techniques to combine multiple overlapping images into a single, high-resolution map. The final orthomosaic image is geometrically corrected (orthorectified) to ensure that it has a uniform scale and is free of distortions caused by the camera angle or terrain relief.
2D Orthomosaic Modelling is a powerful tool that provides high-resolution, accurate maps for various applications. Its benefits extend across multiple industries, aiding professionals in agriculture, construction, urban planning, environmental monitoring, and more, enhancing their ability to analyse, plan, and manage land and resources effectively.
Key Features and Capabilities
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High Resolution and Accuracy
Orthomosaic maps provide high-resolution detail and accurate spatial representation, making them valuable for precise measurements and analysis. -
Geometric Correction
Ensures the image has consistent scale and eliminates distortions, providing a true top-down view. -
Large Area Coverage
Capable of covering extensive areas by stitching together numerous individual images. -
Multispectral Imagery
Can incorporate various spectral bands (e.g., visible, infrared) for different types of analysis.
Forest, Land and Environmental Management
Urban Planning and Civil Engineers
Engineers and planners utilise these accurate maps for site planning, progress monitoring, and infrastructure development. They provide a clear overview of construction sites and urban areas improving project planning and execution.
Construction and Developers
Planners and Developers use orthomosaics for effective city planning, infrastructure development, and land use management.
Environmental Scientists and Conservationists
Use LiDAR to measure tree heights, canopy structure, and forest biomass, aiding in sustainable forest management.
Surveyors & Cartographers
Surveyors use orthomosaic maps for land surveying, property boundaries, and topographic mapping, providing a comprehensive and accurate and efficient representation of the area.
Archaeology
Helps archaeologists in mapping excavation sites and discovering and documenting ancient structures and artifacts.
Farmers and AgronomistsFarmers and Agronomists
Farmers and agronomists use orthomosaics for crop monitoring, health assessment, and precision agriculture practices, including identifying areas needing irrigation, fertiliser, or pest control leading to increased yields and resource efficiency
Aerial Surveys and Topographic Mapping
- Land Development
- Construction
- Environmental Monitoring
- Agriculture
- Forestry
PHOTOGRAMMETRY
2D Orthomosaic Model
A top-down interactive model constructed from multiple high-resolution photographs.
3D Photogrammetric Model
Entire targeted landscapes, buildings, infrastructure and features in a high resolution interactive 3D model
LiDAR
A LiDAR map is useful for industries such as forestry, agriculture/landscaping and complex infrastructure.
LiDAR produces a 3D point cloud and is very effective for mapping densely vegetated areas, collecting data in low-light environments and helping to detect small features, such as wires and cabling.
Multispectral
Enhanced Environmental Monitoring. Highly accurate and up-to-date information about target ecosystems to make informed decisions on plant health, water management, disease, species identification.