We don’t cut any corners and deploy the latest and the best state-of-the-art Near Infrared LiDAR systems with full waveform capability, wide field of view (FOV), and exceptional accuracy. We don’t cut any corners and deploys the latest and the best Topographic LiDAR sensors integrated with high end Inertial Navigation system and gyro stabilized mount.
Topo-Bathymetric Lidar
We leverage dual-channel topo-bathymetric LiDAR for applications such as shoreline mapping and the mapping of lakes and rivers. This advanced technology uses a Green laser to penetrate the water column and a Near-Infrared (NIR) laser to scan the water surface and surrounding topographic features.We use a dual-channel system to create seamless DEMs from seabed to shoreline. Airborne topo-bathymetric LiDAR enables efficient, high-resolution mapping for environmental monitoring, flood modeling, shoreline management, and infrastructure planning. Our fast data acquisition ensures projects stay on schedule without compromising quality.With topo-bathymetric LiDAR, we deliver reliable, high-quality datasets that provide a complete picture of both terrestrial and underwater environments.
Multispectral Imagery (RGBI)
We utilize advanced multispectral sensors to capture imagery across multiple wavelengths, including Red, Green, Blue, and Infrared (RGBI) bands. This technology provides deeper insights into vegetation health, land cover, and environmental conditions that are not visible in standard imagery. RGBI multispectral imagery enables vegetation health monitoring, land use mapping, environmental tracking, precision agriculture, and disaster management by assessing crop vigor, tracking resource changes, optimizing irrigation, and monitoring fires, floods, and other disruptions. Our RGBI imagery, when combined with LiDAR and other geospatial technologies, provides comprehensive datasets for informed decision-making across multiple sectors.
Sonar
Sonar technology uses sound waves to map and measure underwater environments, generating high-resolution bathymetric maps. Similar to bathymetric LiDAR, sonar enables detailed seafloor mapping and inland bathymetry mapping but excels in challenging water conditions, making it an essential complement to LiDAR surveys.
Thermal
Thermal imaging captures heat signatures from surfaces, providing insights that are invisible to the naked eye. This technology detects temperature variations, making it essential for monitoring infrastructure, identifying equipment failures, and assessing energy efficiency. Thermal imaging is widely used for applications such as power line inspections, building diagnostics, and environmental assessments, where early detection of heat anomalies can prevent costly issues and improve safety. By delivering precise temperature data, thermal technology helps organizations optimize operations, ensure regulatory compliance, and proactively address potential risks.
Corona
Our corona inspections aim to identify anomalies and ensure electrical integrity. We utilize a combination of infrared and corona technologies to provide comprehensive assessments. Infrared offers a non-contact, efficient method for detecting electrical issues that could lead to failures, while corona technology uses ultraviolet sensors to detect partial discharge, arcing, and corona activity. Our cameras capture geo-tagged video in real-time, enabling the overlay of both technologies for detecting issues undetectable by other methods. We inspect all line components, including hardware, conductors, insulators, shield wires, dampers, and grounding systems, with anomalies classified and reported through a 3-tier system for precise documentation.
GPS/GNSS/RTK
We utilize RTK (Real-Time Kinematic) technology to conduct precise ground control surveys and support projects requiring traditional surveying techniques. Our kinematic systems integrate high-accuracy IMUs (Inertial Measurement Units) with GNSS (Global Navigation Satellite Systems), providing reliable positioning and orientation data for various remote sensing applications.