This application claims foreign priority benefits under 35 U.S.C. §119(a)-(d) to DE 10 2015 224 719.8 filed Dec. 9, 2015, which is hereby incorporated by reference in its entirety.
The disclosure relates to a motor vehicle having a dust sensor and to a method for reducing dust resuspension by a motor vehicle.
Traffic-related particle emissions that result not from exhaust gas but from abrasion of brakes, tires, clutches, road surface etc. and from resuspension of road dust make a considerable contribution to air pollution. It is expected that exhaust gas particle emissions will decrease owing to increasingly stringent limit values, but the other traffic-related particle emissions will increase owing to greater traffic volumes, and could become the focus of future regulations. Based on data from the German Federal Environmental Agency, it can be expected that, in the year 2020, exhaust gas particle emissions will still account for approximately 18% of all traffic-related fine dust emissions, wherein the expression “fine dust” refers to particles with aerodynamic diameters of less than 10 μm. The remaining 82% are emissions caused not by exhaust gas but by wear. This illustrates the increasing significance of particle emissions not caused by exhaust gas.
For the reduction of brake dust emissions in particular, techniques such as for example shields, blowers and dust collectors are known.
DE 10 329 961 A1 discloses a motor vehicle having an integrated fine dust extraction device for vehicles that filters and collects fine dusts out of the ambient air for scientific tests, which fine dusts can also be analyzed by way of an aerosol spectrometer as a dust measurement unit even during the collection process, wherein the measured data can be transmitted by radio.
Also, motor vehicles have already been proposed by means of which it is sought to remove fine dusts from the ambient air during travel.
For example, DE 20 2006 019 335 U1 discloses a fine-dust extraction device for vehicles, by means of which fine dusts can be removed from the fresh air supplied to the vehicle interior compartment, but by means of which it is also possible for the fine dust content in the ambient air to be reduced in order to comply with legally prescribed fine dust limit values.
DE 20 2006 004 522 U1 discloses a fine dust filter that operates with electrical or magnetic separation and is arranged between an air inlet grille and radiators of a vehicle for the purposes of removing fine dusts from the ambient air flowing through there, even fine dusts that have been emitted or resuspended by other vehicles.
DE 20 2005 005 673 U1 discloses an outside-air filter for motor vehicles, which outside-air filter is mounted below a bumper and serves for the general reduction of air pollution.
Such systems would be capable of effectively reducing fine dust in the environment only if they were installed in a very large number of vehicles, and the outlay for cleaning the numerous filters and for the disposal of the collected dusts would be extreme, especially as relatively coarse dusts that are not actually harmful would also be collected, and the filters would quickly become full.
DE 10 2009 054 194 A discloses a vehicle having a head-up display and having a camera introduced into the beam path thereof, and, from the image data of the camera, it is also possible for rain or dirt on the windshield to be detected.
JP H09 242 500 A discloses an environmental measurement vehicle having a dust concentration sensor arranged on the roof.
The disclosure is based on the object of making it possible to preventatively reduce dust resuspension by motor vehicles and, if appropriate, implement targeted countermeasures.
According to the disclosure, the dust sensor is a sensor for observing a part of a roadway surface situated ahead of the vehicle in a direction of travel. A sensor of said type makes it possible to obtain images of the roadway surface in an arbitrary range of the electromagnetic spectrum, such as for example visible or invisible light or radar waves. On the basis of said images or similar observation data relating to the roadway surface obtained by sensor means, automatic estimation of the magnitude of the road dust load of that part of the roadway surface that is situated ahead of the vehicle is performed in the motor vehicle in real time.
The disclosure makes it possible, on roadway sections that are identified as being generally laden with dust, to targetedly counteract a resuspension or re-release of fine dust, for example through temporary influencing of the vehicle speed and/or by way of targeted but temporary air cleaning measures.
According to a study of road states in central Europe, the greatest part of the particle emissions not caused by exhaust gas arises with a particularly high level of introduction of dirt only on 10% of the road network.
The disclosure therefore makes it possible for the restrictions and the outlay associated with reducing resuspension or re-release of fine dust to be kept within limits because said measures can be restricted to particularly contaminated roadway sections. With this relatively low outlay, it is possible to realize a relatively great environmental benefit.
Although most human drivers will also seek to not cause excessive dust resuspension when driving, it is normally the case that, when they identify dust resuspension or the potential for it, it is too late to react. Modern image evaluation methods can estimate the road dust load of the roadway section situated ahead of the vehicle earlier and more reliably than human drivers, specifically in good time before a situation conducive to dust resuspension arises.
The sensor may be a camera and/or a laser scanner and/or a part of a radar system. Forward-facing cameras, laser scanners and radars are image-recording systems that are often installed as standard, or that can at least be ordered as options, in modern motor vehicles. The image-recording systems may either obtain two-dimensional images or scan the roadway surface line by line.
In the case of a camera as a sensor, which may also be a stereo camera, the dust load of a road or the potential for the road dust load thereof may be estimated, for example, on the basis of deviations in certain image features, such as color changes, brightness etc. An indication for possible dust load is the type of road surface, for example asphalted, non-asphalted, concrete, gravel, etc. The type of road surface may be determined in accordance with its typical appearance, and use may also be made of pattern recognition methods and the like.
If the road surface is observed by being scanned using a laser scanner or radar, a measurement point cloud or a height profile is obtained in which road parts suspected of having a dust load can be found, for example damage to the road surface or rail crossings, at which relatively high dust emissions are typically detected.
Height profile data and optical camera data may also be amalgamated in order to make the estimation more accurate.
The estimated values provided by the device for estimating the road dust load may be filtered in order that only the most heavily dust-laden roadway sections, which are thus most susceptible to dust resuspension, are taken into consideration.
The road dust load of the roadway surface may be specified as a particle concentration, which is correlated with the dust emissions to be expected.
The data obtained may be used as input parameters for a device for reducing dust resuspension. Said device may involve the following:
Exemplary embodiments will be described below on the basis of the drawings. In the drawings:
As required, detailed embodiments of the present disclosure are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the disclosure that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present disclosure.
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While exemplary embodiments are described above, it is not intended that these embodiments describe all possible forms of the disclosure. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the disclosure. Additionally, the features of various implementing embodiments may be combined to form further embodiments of the disclosure.
Number | Date | Country | Kind |
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10 2015 224 719.8 | Dec 2015 | DE | national |