Reality Capture and Digitization Technology Access Centre

Description: Metrology grade 3D scanner.

Plain English Summary: A handheld scanner that uses measurements to scan stationary objects.

Use Cases: High resolution scans, dent mapping, 3D model production of 3D printing, reverse engineering.

• Accuracy: 0.025mm
• Resolution: 0.025mm

Description: A small terrestrial imaging scanner.

Plain English Summary: A compact terrestrial scanner mounted on a tripod that collects LiDAR and imagery to create a colourized point cloud. Controlled by an iPad Pro.

Use Cases: Scanning in areas traditional terrestrial scanners would not fit, photorealistic building scans, etc.

• Accuracy: 4mm at 10m
• Resolution: 13 megapixels at 360 x 269
• Range: 0.5m – 40m

Description: Handheld SLAM LiDAR unit.

Plain English Summary: A scanning system that you hold in your hand that uses light to measure and map its surrounding environment.

Use Cases: Inspections of accessible underground mines, caves, structures, ground etc.

• Accuracy: 3cm
• Max Range: 100m
• Battery Life: 3 hours

Description: Autonomous SLAM LiDAR drone.

Plain English Summary: A drone that can fly by itself and uses light to measure and map its surrounding environment.

Use Cases: Inspections of underground mines, caves, and confined spaces greater than 3m x 3m. Produces video and high-resolution 3D rendering of the scanned environment.

• Flight time: 9 Minutes
• Speed: 3 m/s
• Distance covered: 1000 m

Description: Handheld SLAM LiDAR unit.

Plain English Summary: A scanning system that you hold in your hand that uses light to measure and map its surrounding environment. Contains a panoramic camera to create a colourized point cloud.

Use Cases: Mapping indoor structures, outdoor areas, underground mines, caves, structures, ground etc.

• Accuracy: 2-3cm
• Max Range: 100m
• Battery Life: 3 hours

Description: Backpack with LiDAR and Panoramic Imagery.

Plain English Summary: A scanning system that you hold on your back that uses light to measure and map its surrounding environment. Contains a panoramic camera to create a colourized point cloud.

Use Cases: Mapping indoor structures, outdoor areas, underground mines, caves, structures, ground etc.

• Accuracy: 2-3cm
• Max Range: 100m
• Battery Life: 3 hours

Description: Magnetic car mount.

Plain English Summary: Magnetic mount to attach the Zeb Horizon securely to a car for 3D mapping.

Use Cases: Town mapping, mapping longer distances that a vehicle can fit through like underground mines, etc.

• Weight: 4.6kg
• Max Speed: 48 km/h
• Range: 100m

Description: Handheld Zeb Horizon mount.

Plain English Summary: Allows the user to mount the Zeb Horizon for vertical deployment underground or inaccessible areas.

Use Cases: Lower the Zeb Horizon into any inaccessible or hazardous area such as manholes, vent shafts, silos, below bridges etc.

• Max Depth: 250m
• Range: 100m

Description: Panoramic camera accessory for Zeb Horizon.

Plain English Summary: 360° panoramic camera attachment for the Zeb Horizon.

Use Cases: Virtual walkthroughs, creating real estate, creating floor plans, etc.

• Resolution: 6720 x 3360
• Capture Time: 90 mins
• Range: 30m

Description: Mount to attach the Zeb Horizon to the DJI M600.

Plain English Summary: Allows the user to mount the Zeb Horizon to the M600 for SLAM based Aerial LiDAR applications.

Use Cases: Any aerial LiDAR applications.

• Max Flying Height: 40m above features
• Max Speed: 5 m/s
• Weight: 3.6kg with Zeb Horizon attached

Description: Rotary Wing Drone.

Plain English Summary: A drone that can attach just about any sensor to it for any aerial application.

Use Cases: Can perform just about an aerial application based on the attached sensor – Topo-bathy surveys, aerial photogrammetric mapping, aerial LiDAR mapping, etc.

• Wind Resistance: about 30 km/h
• Max Speed: 18 m/s
• Flight Time: Depends on sensor (35 Minutes with no payload/16 minutes with 6kg of payload)

Description: A topo-bathy LiDAR sensor that attaches to the DJI M600.

Plain English Summary: A sensor that collects both topographic and bathymetric data from above while attached to a drone.

Use Cases: Coastline mapping, river mapping, measuring underwater features, object detection underwater, etc.

• LiDAR Accuracy: 1cm
• Position Accuracy: 2cm
• Weight: 5kg
• Flying Height: Topo: 40m, Bathy: 20m

Description: Rotary Wing Inspection Drone.

Plain English Summary: A rotary wing inspection drone with an RGB camera, LiDAR puck, and a thermal camera, all inside a cage to avoid damage when hitting objects.

Use Cases: Mapping areas too small/unsafe for humans or drones to go into such as medium sized mine escape shafts, identifying heat leaks in areas, asbestos infested buildings, etc

• Max Speed: 7 m/s
• Wind Resistance: 25 km/h
• Flight Time: 9 mins
• Thermal Resolution: 160 x 120 at 9fps
• Video Resolution: 4k Ultra HD: 3840 x 2160 at 30 fps
• LiDAR Accuracy: up to 2cm

Description: Rotary Wing drone with Hyperspectral camera.

Plain English Summary: A rotary wing drone with a hyperspectral camera attached to collect aerial hyperspectral data.

Use Cases: Any aerial hyperspectral applications including tailings pond monitoring, forest health assessment, soil analysis, etc.

• Wind Resistance: 20 km/h, gusts of 30 km/h
• Flight Time: 14 mins
• Ground Resolution: 2.34cm
• SWIR Lens: 970 to 2500 nm, 300 bands, 620 pixels, max 250 fps
• VNIR Lens: 400 to 1000 nm, 200 bands, 1240 pixels, max 1080 fps

Description: 249g rotary wing drone with camera.

Plain English Summary: A small rotary wing drone that takes videos while being controlled by a remote control.

Use Cases: Drone pilot training, aerial videography, basic aerial mapping.

• Max Speed: 13 m/s
• Wind Resistance: about 30 km/h
• Flight Time: 30 mins
• Video Resolution: 2.7K: 2720×1530

Description: Rotary Wing Drone.

Plain English Summary: Photogrammetry rotary wing drone that can georeference data without aerial targets if used with an RTK base station.

Use Cases: Basic aerial photogrammetry for surface modelling, oblique imagery, base map creation, etc.

• Max Speed: 13 m/s
• Wind Resistance: about 35 km/h
• Flight Time: 30 mins
• Accuracy: Horizontal: 1cm + 1ppm, Vertical: 1.5cm + 1ppm
• Photogrammetric Accuracy: 5cm

Description: < 250g programmable rotary wing drone.

Plain English Summary: A small, remote control rotary wing drone with a video camera that can be programmed to fly on its own.

Use Cases: Basic drone mapping and drone pilot training.

• Flight Distance: 100m
• Flight Time: 13 mins
• Video Resolution: 720p HD
• Photo Resolution: 5 megapixel

Description: RTK Rover Attachment for the iPad Pro.

Plain English Summary: Attaches to an iPad Pro to georeferenced the images and LiDAR collected with the iPad’s camera.

Use Cases: Easily georeferencing scans of objects such as cars, fire hydrants, buildings, etc.

• Height Limit: 5m
• Accuracy: <2cm