NUVIEW is revolutionizing the Earth observation industry by building the first commercial satellites designed to annually map the planet’s entire land surface with LiDAR. NUVIEW’s data will elevate global capabilities and transform what is possible for mankind to know about the Earth.
Learn More About NUVIEWNUVIEW DSMs are high-resolution, 3D representations of the Earth's surface, capturing both natural terrain features and man-made structures.
NUVIEW is revolutionizing the Earth observation industry by building the first commercial satellites designed to annually map the planet’s entire land surface with LiDAR. NUVIEW’s data will elevate global capabilities and transform what is possible for mankind to know about the Earth.
Contact To Learn MoreNUVIEW DTMs are high-resolution, 3D representations of the Earth's surface, excluding vegetation and man-made structures.
Collecting LiDAR data from space using a constellation of satellites presents a substantial advantage over utilizing airplanes or drones, primarily due to the vastly more efficient and comprehensive collection capabilities of satellites. Satellite-based LiDAR systems will enable unparalleled coverage, capturing data from the most remote and inaccessible areas on a global scale, far beyond the reach of aircraft.
Our Data Processing and Analytics services include:
We employ space-based LiDAR data to monitor urban growth, infrastructure development, and natural events, aiding decision-making and resource management.
This modality captures high-resolution data for areas obscured by vegetation, supporting forestry management, infrastructure planning, and environmental studies.
These collections use rapid, space-based LiDAR to create real-time, high-resolution digital twins for situational awareness and strategic decision-making.
This modality captures high-resolution data for areas obscured by vegetation, supporting forestry management, infrastructure planning, and environmental studies.
NUVIEW’s hydrological data suite maps water bodies and flood plains for flood-prone area identification, mitigation strategies, and flood-pattern assessment.
By offering precise, reliable data across these applications, LiDAR can play a vital role in informing andenhancing global climate initiatives and contributing to a more sustainable future.
Applications include:
Map and monitor forest biomass, estimate carbon stocks, track deforestation and reforestation, and promote sustainable forest management practices.
Provides detailed topographical data to support climate-resilient infrastructure development, sustainable urban planning, and minimized environmental impacts.
LiDAR-generated elevation models identify flood-prone areas, enabling better flood prediction, preparedness, and mitigation strategies.
Improve wind farm site selection and design, and maximize energy production. It also evaluates solar potential for optimal panel placement.
Monitor coastal erosion and shoreline changes, informing coastal protection measures and ecosystem preservation efforts.
LiDAR enables accurate, high-resolution mapping of the Earth’s surface, providing vital data for monitoring ecosystems, natural resources, and climate change. Applications include:
Map habitats, vegetation structure, and landscape features, allowing better conservation planning and biodiversity assessment.
Elevation data identifies wetland boundaries and health, guiding restoration and land-use planning for ecosystem protection.
Use detailed analysis to inform land-management practices to minimize erosion and mitigate landslide risks.
Elevation data identifies wetland boundaries and health, guiding restoration and land-use planning for ecosystem protection.
LiDAR helps monitor crop health, soil conditions, and irrigation infrastructure, enabling precision agriculture practices.
Analyze the potential effects of development projects, ensuring sustainable planning and minimizing negative ecosystem impacts.
Identify and map wildlife corridors, preserving connected habitats for species movement and ecosystem health.
LiDAR enables accurate, high-resolution mapping of the Earth’s surface, providing vital data for monitoring ecosystems, natural resources, and climate change. Applications include:
Map habitats, vegetation structure, and landscape features, allowing better conservation planning and biodiversity assessment.
Elevation data identifies wetland boundaries and health, guiding restoration and land-use planning for ecosystem protection.
Use detailed analysis to inform land-management practices to minimize erosion and mitigate landslide risks.
Elevation data identifies wetland boundaries and health, guiding restoration and land-use planning for ecosystem protection.
LiDAR helps monitor crop health, soil conditions, and irrigation infrastructure, enabling precision agriculture practices.
Analyze the potential effects of development projects, ensuring sustainable planning and minimizing negative ecosystem impacts.
Identify and map wildlife corridors, preserving connected habitats for species movement and ecosystem health.
LiDAR technology is crucial for supporting national mapping programs in civil governments, providing high-resolution, accurate data across various applications, including:
Detailed digital elevation, terrain, and surface models serve as foundational layers for geospatial databases and mapping projects.
Inform cost-effective, environmentally sensitive development of transportation networks, utilities, and other infrastructure.
Accurate topographical and land cover information aids in sustainable growth, resource management, and urban planning decisions.
Identifies hazard-prone areas and assists in risk mitigation, evacuation routes, and post-disaster recovery efforts.
Accurate terrain and infrastructure data support national security initiatives and enhance situational awareness.
Precise land parcel, boundary, and topography information from LiDAR ensures fair and accurate property assessments.
Monitoring and managing natural resources, such as forests and water bodies, contribute to effective environmental policy-making and conservation efforts.
LiDAR technology is crucial for supporting national mapping programs in civil governments, providing high-resolution, accurate data across various applications, including:
Detailed digital elevation, terrain, and surface models serve as foundational layers for geospatial databases and mapping projects.
Inform cost-effective, environmentally sensitive development of transportation networks, utilities, and other infrastructure.
Accurate topographical and land cover information aids in sustainable growth, resource management, and urban planning decisions.
Identifies hazard-prone areas and assists in risk mitigation, evacuation routes, and post-disaster recovery efforts.
Accurate terrain and infrastructure data support national security initiatives and enhance situational awareness.
Precise land parcel, boundary, and topography information from LiDAR ensures fair and accurate property assessments.
Monitoring and managing natural resources, such as forests and water bodies, contribute to effective environmental policy-making and conservation efforts.
LiDAR enables accurate, high-resolution mapping of the Earth’s surface, providing vital data for monitoring ecosystems, natural resources, and climate change. Applications include:
Find optimal cell tower locations, boosting network performance.
Enhance connectivity by minimizing interference and obstructions.
Aid 5G network planning, addressing radio wave factors.
Monitor vegetation near infrastructure, preventing service disruptions.
3D modeling enables remote inspection and improved inventory accuracy.
LiDAR enables accurate, high-resolution mapping of the Earth’s surface, providing vital data for monitoring ecosystems, natural resources, and climate change. Applications include:
Find optimal cell tower locations, boosting network performance.
Enhance connectivity by minimizing interference and obstructions.
Aid 5G network planning, addressing radio wave factors.
Monitor vegetation near infrastructure, preventing service disruptions.
3D modeling enables remote inspection and improved inventory accuracy.