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Index Air Quality Monitoring for Light and Active Mobility.

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Low-cost sensors like the BME688 can create distributed air quality monitoring networks. These systems, integrated into wearables and electric vehicle charging stations, offer real-time environmental data.

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Area of Science:

  • Environmental Science
  • Sensor Technology
  • Sustainable Mobility

Background:

  • Decarbonization efforts can be supported by light, active, and multimodal mobility.
  • Air quality monitoring is crucial for public health and environmental assessment.
  • Emerging technologies enable distributed environmental sensing networks.

Purpose of the Study:

  • To investigate the BME688 environmental sensor's capability for air quality monitoring.
  • To assess the feasibility of integrating BME688 into wearables and electric vehicle supply equipment (EVSE).
  • To evaluate the sensor's performance in detecting human-perceived air quality.

Main Methods:

  • Experimental investigation of the BME688 sensor's performance.
  • Measurements conducted in both controlled and uncontrolled environments.
  • Integration of the sensor into potential wearable and EVSE applications.

Main Results:

  • The BME688 sensor demonstrates suitability for detecting human-perceived air quality.
  • Carbon dioxide (CO2) readings show potential significance for other gases like carbon monoxide (CO).
  • The Index for Air Quality (IAQ) derived from BME688 is sensitive to relative humidity, with limited outdoor significance below 250.

Conclusions:

  • The BME688 sensor, integrated into low-power embedded systems, can contribute to distributed air quality monitoring networks.
  • Wearables and solar-powered EVSE can host these sensors for real-time micro-climate and pollution data collection.
  • Further research is needed to refine IAQ interpretation in uncontrolled outdoor environments.