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A Breakthrough

High-resolution real-time sensors for traffic, climate, air pollutants and weather

  • The shift from a single-point monitoring system (many cities have only one PM2.5 reference station, if any) to a dynamic, high-resolution network providing tens of thousands of measurements from across the city in real time

  • Real-time traffic data with 13 classes enable granular analyses and innovative traffic control.

  • A vast amount of data enables environmental pollution to be comprehensively monitored and analysed.  

  • We are able to identify live and historical green zones, hotspots, roads with canyon effects, as well as endogenous sources of pollution, chronic or related to events. 

  • This is a completely new analytical capability, allowing for comparisons of pollution and stress levels between city districts, different building areas or streets.

Our regional and international measurement networks:

Battery

Battery supply module for semi-autonomous operation using street lighting posts and in combination with photovoltaic modules for fully autonomous measurements at locations without power supply

Stationary sensors

Modular stationary sensors supplement mobile sensors with weather monitoring and continuously optimise their function.

Mobile sensors

Mobile sensors for installation on fleet vehicles, public transport and private vehicles.

DEUS_SmartAir (copy 1)

In the mFUND project "DEUS_SmartAir", we have developed the AI-based ABAKUS system for qualified traffic flow measurements in accordance with the 8+1 BASt classes in order to improve environmentally sensitive traffic management solutions.

Wetter (copy 1)

Weather monitoring is of eminent importance for understanding the existing air pollution situation. It is also necessary for forecasting systems in order to be able to map the future pollution situation in real terms.

Methan (copy 1)

Methane (CH4) is an odourless and colourless gas that is produced by biological processes during decomposition or fermentation. It is the main component of natural gas and occurs as an associated gas with crude oil and accumulates in coal seams. It is about 80 times more climate-active than CO2.

Ultra Feinstaub (copy 1)

Ultra fine particulate matter (UFP) PM 1.0 and PM2.5 (1-100 µm according to ISO 2015; EU 2011).
In addition to "UFP", the term "nanoparticles" is better known to the public. Particles of this size penetrate the human organism unhindered.

Ammoniak (copy 1)

Ammonia, a gaseous nitrogen compound, contributes significantly to urban air pollution, damages the respiratory tract, spreads in the air, reacts with other pollutants and forms particulate matter. It is released in agriculture and by urea-diesel technology.

Stickstoffoxide (copy 1)

Nitrogen oxides, mostly from combustion processes, primarily from road traffic in urban areas. The effects of nitrogen dioxide range from coughing and shortness of breath to impaired lung function. Real-time monitoring of even the smallest concentrations is therefore important.

Partner program

Become a part of our Greenpartner family!

 
  • Enhancing reputation and brand value
 
 
  • Strengthening ESG compliance
 
 
  • Stakeholder-Impact
 
 
  • Cooperation with urban decision makers
 

 

Our Partners

Would you like to find out more? Let's get in touch!