For Smart Cities and surveillance
Microstrip antenna inside. Tough solid unit, no moving parts. Might be placed beyond plastic.
A universal unit for any speed and distance range, changing its accuracy on the fly. The one that replaces parking sensors, mid- and long-range radars, blind spot detection and night vision. Easily fits any vehicle.
Tens of MKRDR units working simultaneously
Reprogrammable and easily replaceble universal hardware unit
Works at night and in bad weather conditions: heavy rain, dense fog, snow
Every smart city concept implies that you understand what's happening on the streets. Where vehicles drive, people go, drones fly and so on. We're pretty sure MKRDR units will help you build the best intellectual transport or surveillance system ever.
Cameras have known problems with recognition in bad conditions and require expensive infractructure and processing power. You won't face these restrictions using radar units. They use proprietary P2P wireless interface to exchange data and 3G or LAN to reach the cloud- or locally deployed storage.
Embedded inclinometer lets the unit to auto-configure its attitude (GPS is an option). Battery keeps unit running during shortages.
Understand what's happening on the streets respecting the privacy. No cameras, not a single frame recorded! Control the air and unwanted UAVs before they bother you.
Operate with accurate and complex anonymous data from thousands of units.
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We're introducing a disruptive approach to radar technologies. A universal unit with flexible software part. It means you can use the same powerful unit for pretty orthogonal spheres. And it always will show its best.
Although, minor hardware changes remain possible - i.e. we can change the antenna parameters or switch between one- or two-pieces design.
Digital radars for vehicles, UAVs and surveillance
These radars greatly extend the abilities of vehicles, robots, surveillance systems and many more.
Today’s cars carry up to 5 different active safety systems onboard, from parking sensors to long-range radars. We introduce one system that potentially replaces all of them. One system instead of four–five means less time spent constructing, less SKUs needed and easier data processing.
It's a microwave radar without its' common issues. Digital radar detects as small objects as a dog in any weather conditions. So, you no longer need to have extra radar to see pedestrians or cyclists, it's all in one. The radar also see trees, road fence, curbs and all other obstacles that one meets on the road.
No more crashes. Complex data to avoid any still or moving obstacle in any weather conditions from a small and effective radar.
Trusted collision avoidance is still a challenge for the UAV industry due to strict limitations. It should observe a large sector of 3D space and detect dangerous obstacles with as little latency as possible. Such demand is a requirement for high speed drones.
Our unit works in conditions where cameras give up: high speeds, long distances, bad weather conditions, multiple objects. All obstacles are detected and reported at once with latency as low as 50 msec. It is also possible to detect power lines and other wires (with special antenna configuration).
Increasing a signal storage time drastically, thus lower the NSR level
The main idea is to move from the analog signal processing to the digital one. So, a common scheme of powerful digital signal processor + complex microwave complex is replaced with a cheap fpga processor + simple microwave complex.
It gives major advantages to a vast variety of radars, not limited by applications, mentioned above. Check the key benefits given by our technology, that might improve any existing radar application:
Major increase in the range and detection accuracy over existing locators
Any carrier frequency (cm- or mm-wavelength)
Low emitting and consuming power
Here are the quick specs of the lineup
Based on certified top-tier supplier's components
Wireless network interface, GPS, inclinometer, battery pack and additional controller onboard
Any reasonable speed
For sure, it reports you distance and location of cars moving around with as low latency as 50 ms (and their speed too). No matter how fast they go.
It perfectly works with cameras, which still needed for road signs and lanes recognition.
Digital radar is incredibly flexible. One can set up a unique configuration from single radar collision avoidance system to a 360-degrees surveillance for an autonomous vehicle. All with universal unit called Unit One.
See how these key industries benefit from digital radars in detail:
Radar saves flight time with its lightweight and low-consuming construction. One can install one or several units on the drone to get as much data as needed.
And on top of it, one might want to point the radar down and use a drone as a flying surveillance system.
Less installation costs and time are game-changers: you can launch the system in days.
This particulary makes sense when you're deploying and maintaining a complex system with thousands of units.It might to seamlessly cover streets of a city - just supply them with power (streetlights looks ok for the sensors). Processing and detection is done on the unit's side, so 3G connection is enough to retreive the data by the control center.
MKRDR units look good as a surveillance system solution. Cover large areas with small amount of sensors - and even the air, where drones come from.
Field of view
60° azimuth, 20° elevation
200 m for people, 400 m for cars
100 m for people, 200 m for cars
160° azimuth, 60° elevation
Unit One W
Basic and well-known FMCW-radar technology has undergone a radical modernization leaving its key advantages intact: low power level and simplicity of the microwave part. Added features usually suit complex and expensive radars.
Game-changing radars that have better parameters and cost less than existing ones. New technology called digital radar is based on proven mm-wave components, but implements optimal signal processing and patented digital algorythms.
Switch modes "on the fly": rough scan of a substantial distance → precise location on a short range
Vary the parameters in a wide range for a different applications
Collect the data from hundreds and thousands of radars into a single data center or network (P2P, V2X).