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Fremtidens biler får høresans Teaching cars to hear: a modified roof fin for testing acoustic sensors for the capture of external noise. Photo: Fraunhofer IDMT/Hannes Kalter

Fremtidens biler får høresans

Fraunhofer Institute for Digital Media Technology IDMT i Oldenburg i Tyskland har udviklet et prototypesystem, der gør det muligt for fremtidens biler at høre og agerere med afsæt i de informationer, som registreres (in english)

Modern cars are equipped with a host of advanced driver-assistance systems designed to reduce the burden behind the wheel. Features such as automatic parking and blind-spot monitoring employ cameras and radar and lidar technology to detect obstacles in the immediate vicinity of the vehicle. In other words, they provide vehicles with a rudimentary sense of sight.

Cars have yet to be endowed with sense of hearing. In the future, however, systems that can capture and identify external noises are set to play a key role – along with smart radar and camera sensors – in putting self-driving cars on the road. Researchers at Fraunhofer IDMT in Oldenburg are now developing AI-based systems that can recognize individual acoustic events. These will give vehicles auditory capability.

- Despite the huge potential of such applications, no autonomous vehicle has yet been equipped with a system capable of perceiving external noises, says Danilo Hollosi, head of the Acoustic Event Recognition group at Fraunhofer IDMT in Oldenburg.

- Such systems would be able to immediately recognize the siren of an approaching emergency vehicle, for example, so that the autonomous vehicle would then know to move over to one side of the highway and form an access lane for the rescue services.

There are numerous other scenarios in which an acoustic early-warning system can play a vital role - when an autonomous vehicle is turning into a pedestrian area or residential road where children are playing, for example, or for recognizing defects or dangerous situations such as a nail in a tire. In addition, such systems could also be used to monitor the condition of the vehicle or even double as an emergency telephone equipped with voice-recognition technology.

Noise analysis with AI-based algorithms

Developing a vehicle with auditory capability poses a number of challenges. Here, however, Fraunhofer IDMT can call on specific project experience in the field of automotive engineering as well as a wealth of interdisciplinary expertise. Key areas of investigation include signal capture on the basis of optimal sensor positioning as well as signal preprocessing, signal enhancement and the suppression of background noise.

The system is first trained to recognize the acoustic signature of each relevant sound event. This is done by machine-learning methods that use acoustic libraries compiled by Fraunhofer IDMT. In addition, Fraunhofer IDMT has written its own beamforming algorithms. These enable the system to dynamically locate moving sound sources such as the siren on an approaching emergency vehicle. The result is an intelligent sensor platform that is able to recognize specific sounds. Fraunhofer has also written its own AI-based algorithms.

These are used to distinguish the specific noise that the system is designed to identify from other, background noises.

- We use machine learning. And to train the algorithms, we use a whole range of archived noises. Fraunhofer and partners from industry have already created initial prototypes. These should be reaching market maturity by the middle of the coming decade, explains Danilo Hollosi.

The acoustic sensor system comprises microphones, a control unit and software. The microphones, installed in a protective casing, are mounted on the outside of the vehicle, where they capture airborne noise. Sensors transmit these audio data to a special control unit that then converts them into the relevant metadata. In many other areas of use – such as security applications, the care industry and consumer products – the raw audio data are directly converted to metadata by smart sensors.

Modified versions of this computer-based process for identifying acoustic events can be used in other sectors and markets. Such applications include quality control in industrial manufacturing. In this case, smart battery-powered acoustic sensors are used to process audio signals from plant and machinery. This information is sent wirelessly to a processor. On this basis, it is possible to determine the condition of the production plant and preempt any imminent damage. Other applications include automatic voice-recognition systems to enable hands-free documentation by technicians conducting, for example, turbine maintenance.

7/2 2020
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