our uavs

Sensefly eBee

FIXED-WING

Sensefly eBee

Technical Specs:

  • Can cover up to 4.6 square miles in a single flight
  • Weighs 1.5 lbs. minimizing its impact energy
  • Wingspan: 96 cm
  • Maximum flight time: 50 minutes
  • Mid-air collision avoidance
  • Features fully automated flight planning
  • Transform images into geo-referenced 2D orthomosaics, 3D point clouds, triangle models, and Digital Elevation Models (DEMs)

Capabilities: The fixed-wing eBee can create an aerial image of a large area from hundreds of photos taken during a single flight. It can construct a 3D model of a building, neighborhood or other area of interest, which can then be used to measure distances, areas and slopes, calculate volumes, simulate water rising and flooding an area, and more. The fixed-wing eBee is ideal for large-scale investigations and data gathering in commercial, agricultural and catastrophe claims.

MULTIROTOR

Phantom 2

  • Weighs 2.2 pounds
  • Flight time: 25 minutes
  • Precision flight and stable hovering
  • Auto-return home feature if UAV and controller are disconnected

Phantom 2 Vision+

  • 3-axis camera stabilization
    Autonomous flight

Phantom 3 DJI

  • Live HD view over distances up to 1.2 miles
  • Unparalled safety with GPS-enabled geofence to prevent flying into unwanted areas or obstacles
  • Vision Positioning allows for flight indoors, low to the ground, and in GPS-free areas
  • Autopilot
  • Automatic Flight Logs

Capabilities:

Multi-rotor UAVs can capture HD video and photos of fire or accident scenes from above, and inspect roofs and other structures that are difficult to access, or that require close inspection.
Images taken from multirotors can be transformed into geo-referenced 2D orthomosaics, 3D point clouds, triangle models, and Digital Elevation Models (DEMs), and can be constructed into a 3D model of a building, neighborhood or other area of interest, and used to measure distances, areas and slopes, and calculate volumes.

Phantom 3 DJI

CAMERA/SENSOR TECHNOLOGIES

A selection of high resolution digital cameras are available for capturing photos and/or videos at multiple resolutions.Visual/RGB

A selection of high resolution digital cameras are available for capturing photos and/or videos at multiple resolutions.


Infrared (IR) cameras are available to document and identify areas of temperature variations. Potential uses include inspection of insulated roofing panels on commercial buildings and building envelope inspections.Thermal Imaging

Infrared (IR) cameras are available to document and identify areas of temperature variations. Potential uses include inspection of insulated roofing panels on commercial buildings and building envelope inspections.


NIR cameras are primarily useful for agricultural applications. Images from an NIR camera can be used to compute vegetation indices which provide an assessment of biomass and plant health.Near-Infared (NIR)

NIR cameras are primarily useful for agricultural applications. Images from an NIR camera can be used to compute vegetation indices which provide an assessment of biomass and plant health.


Like the NIR camera, the multispectral camera is primarily useful for agricultural applications. This camera captures images in four separate bands for increased accuracy assessing the health of vegetation.Multispectral

Like the NIR camera, the multispectral camera is primarily useful for agricultural applications. This camera captures images in four separate bands for increased accuracy assessing the health of vegetation.

POST-PROCESSING CAPABILITIES

The individual photos taken by a UAV can be corrected for the angle at which they were taken, then “stitched” together to create a single image of a larger area. These orthomosaics can be geo-referenced then overlaid on a base map.Orthomosaic

The individual photos taken by a UAV can be corrected for the angle at which they were taken, then “stitched” together to create a single image of a larger area. These orthomosaics can be geo-referenced then overlaid on a base map.


A geometrically accurate 3-dimensional model can be created from the geo-tagged photos collected by the UAV. The 3D model can be used to measure any length, area or volume of interest – for example the area of a roof surface. Additional uses include contour mapping and 3D simulations.3D Point Cloud

A geometrically accurate 3-dimensional model can be created from the geo-tagged photos collected by the UAV. The 3D model can be used to measure any length, area or volume of interest – for example the area of a roof surface. Additional uses include contour mapping and 3D simulations.


Contour maps can be created from the 3D model to help identify elevation changes across an area. For example a contour map of a large roof surface can be used to identify the direction of drainage and the amount of slope on the roof.Contour Mapping

Contour maps can be created from the 3D model to help identify elevation changes across an area. For example a contour map of a large roof surface can be used to identify the direction of drainage and the amount of slope on the roof.


Fly around views and simulation of water rising during a flooding event are examples of simulations that can be created using the 3D model.3D Simulation

Fly around views and simulation of water rising during a flooding event are examples of simulations that can be created using the 3D model.

CAMERA/SENSOR TECHNOLOGIES

Visual/RGBVisual/RGB

A selection of high resolution digital cameras are available for capturing photos and/or videos.

Thermal Imaging

Thermal Imaging

Infrared (IR) cameras are available to document and identify areas of temperature variations. Potential uses include inspection of insulated roofing panels on commercial buildings and building envelope inspections.

Near-InfaredNear-infared (NIR)

NIR cameras are primarily useful for agricultural applications. Images from an NIR camera can be used to compute vegetation indices which provide an assessment of biomass and plant health.

MultispectralMultispectral

Like the NIR camera, the multispectral camera is primarily useful for agricultural applications. This camera captures images in four separate bands for increased accuracy assessing the health of vegetation.

POST-PROCESSING CAPABILITIES

Orthomosaic

Orthomosaic

The individual photos taken by a UAV can be corrected for the angle at which they were taken, then “stitched” together to create a single image of a larger area. These orthomosaics can be geo-referenced then overlaid on a base map.

3D Point Cloud3D Point Cloud

A geometrically accurate 3-dimensional model can be created from the geo-tagged photos collected by the UAV. The 3D model can be used to measure any length, area or volume of interest – for example the area of a roof surface. Additional uses include contour mapping and 3D simulations.

countourmapping_circleContour Mapping

Contour maps can be created from the 3D model to help identify elevation changes across an area. For example a contour map of a large roof surface can be used to identify the direction of drainage and the amount of slope on the roof.

3D Simulation3D Simulation

Fly around views and simulation of water rising during a flooding event are examples of simulations that can be created using the 3D model.