Autonomous Optical
Landing System
Landing System
Truly revolutionary. Geniously simple. Pushing limits.
About Us
We are a team of physics, electronics & telecommunication engineers with 10+ years of experience in R&D, control systems development, and actual operation of UAVs and unmanned boats. We are happy to give you best from our service which is based on serious experience.
Our product
Autonomous optical landing system (AOLS)
for ultra-precise UAV helicopter and multicopter landing.
for ultra-precise UAV helicopter and multicopter landing.
Ultra-precise UAV (helicopter and multicopter) landing/takeoff
Multidirectional landing/takeoff
Uninterrupted landing/takeoff even in severe climatic conditions
GPS independence allows landing/takeoff indoors.
Our technological advantage
Designed for ultra-precise UAV (helicopter and multicopter) landing. AOLS operates using optical emitter beacons and sensors which, within its operation radius, replace GPS.
We do NOT apply positioning methods based on cameras, QR codes, GPS, RTK, or a compass*.
We do NOT apply positioning methods based on cameras, QR codes, GPS, RTK, or a compass*.
*Note: currently NO camera can recognize the landing point at 100 m away (its landing spot image size will be 1 pixel only, weather conditions like fog and up-sun may be a disturbance).
UNMANNED does not mean AUTONOMOUS
Issue which AOLS solves
How to provide autonomous loading and charging off drones using a dock station and how to place the dock station to ensure docking regardless of GPS signals.
Note: GPS does not work inside the buildings, and with no GPS signal, a drone cannot deliver an item to the right place inside the building or even return to its base.
Specs
High-speed data acquisition
7,800+ Hz
UAV positioning resolution
2 mm
Landing point standard deviation
10 mm
Key Features
Independence
NO GPS signal is required
NO data from Inertial navigation system and autopilot are required
NO radar and lidar are required
NO data from Inertial navigation system and autopilot are required
NO radar and lidar are required
Flexibility
AOLS can be installed on any UAVs (helicopter and multicopter type) suffering control limitations (roll, pitch, yaw, and throttle)
All-weather
Unlike cameras, AOLS optical sensors are not sensitive to thick fog, frost, pollution, darkness, windstorms, bright light and brightness variation
High accuracy
Measurement is 1k times faster than GPS. Data acquiring and filtering during time intervals between control commands increases the accuracy and range
Efficiency
Due to AOLS ability for horizontal take-off/landing, the landing zone can be located in a building/container, which does not require cleaning surface from precipitation and debris before each AOLS operation cycle.
Use cases
Farming
Long-distance flights between clusters of automated farms with indoor and outdoor operations.
Industrial
- Patrolling, monitoring, exploration
- Data collection (emissions and volatile substances measurement, water sampling, etc)
- Rescue operations
- Delivery
Civil
- Professional video and photo shooting
- Data transmission (wi-fi)
- Advertisement
- Delivery
- Firefighting
- Patrolling
And more..
CONTACT US
nav.engine.team@gmail.com
