Logotype Logotype
Logotype

Automotive

Discover the contact-free, unobtrusive measurement of a driver’s breath alcohol

In the field of automotive alcohol safety systems, we enjoy close co-operation with Autoliv, a leading global supplier of those kinds of systems. Our current projects include the development of a new technology to allow for contact-free, unobtrusive measurement of the driver’s breath alcohol.

When it comes to measuring a person’s blood alcohol concentration, most people are familiar with breathalysers that require that drivers provide a deep lung sample by blowing into a tube or other sensor. In contrast, the breath-based system being developed by Senseair and Autoliv Development is designed to unobtrusively analyse alcohol on the driver’s breath. Drivers will simply be able to enter the vehicle and breathe as they normally would. 

Key Benefits:

  • Contact-free
  • Unobtrusive
  • No calibration required
  • Measures alcohol as the driver breathes normally while seated in the driver's seat

How does it work?

The system draws the driver’s exhaled breath into a sensor, which measures the concentrations of alcohol and carbon dioxide present. The known quantity of carbon dioxide in human breath serves as an indicator of the degree of dilution of the alcohol concentration in exhaled air.

Molecules of alcohol and tracers such as carbon dioxide absorb infrared light at specific wavelengths. The Senseair device directs infrared light beams on the breath sample and analyses the wavelengths returned in order to quickly and accurately calculate the alcohol concentration.

We have already implemented one touch-free unit, but we continue to move towards a prototype that can be integrated into the dashboard of a vehicle by utilising mirrors to reduce the required optical length of the device. The device is highly sensitive and able to analyse diluted breath samples at dilutions expected from a driver’s natural breath plume.

Testing the prototype

To test the prototype under development, the DADSS Research Program has developed a wet gas breath simulator. The simulator blends gases such as carbon dioxide, nitrogen, and oxygen with moisture to create an “exhaled breath” that matches the composition, temperature, and pressure of natural human breath. Ethanol can then be added to the breath at various concentrations. In addition, the Senseair prototype will continue to run through a series of tests with human subjects, as well as durability tests in different environmental situations, from temperature shifts to sudden changes in motion, and interference (e.g. dust or mechanical shock).

Read more about the project at https://www.dadss.org/breath-based-technology/