WO2013064295A1 - Method for detecting a measurement error, and vehicle-mounted device - Google Patents

Abstract

The invention relates to a method for detecting a measurement error during the determination of the speed of a vehicle (10) and/or the determination of a distance travelled by the vehicle (10), said method allowing measurement errors to be detected in a comparatively simple and yet reliable way. According to the invention, the speed of the vehicle (10) is determined by means of a vehicle-mounted optical sensor device (20), and a measurement error is detected on the basis of a component of the determined speed which deviates from the direction of movement of the vehicle (10). In particular with railway vehicles, a measurement error is detected when a sensor determining the speed in the direction extending transverse to the direction of the rail outputs a measurement signal indicating a movement in said transverse direction. The invention also relates to a vehicle-mounted device (25) for determining the speed of a vehicle (10) and/or determining a distance travelled by the vehicle (10).

Description

description

Method for detecting a measurement error and vehicle-side device

In practice, it is often necessary to control the speed of a vehicle and / or a distance traveled by the vehicle, i. a distance to determine. The measuring methods used in each individual case differ, among other things, depending on the type of vehicle and the required measuring accuracy. In particular, in the case of vehicles in the form of rail vehicles, in principle, such methods are advantageous with regard to the accuracy of the measurement, which is a non-contact, i. allow a possible wheel slip independent measurement of the speed and / or covered by the vehicle track.

However, corresponding methods can have the disadvantage that they are susceptible to measurement errors in that particles entering the detection range of a sensor device used for the measurement, for example in the form of rain, ice or snow, can lead to a falsification of the measurement. In the worst case, this may lead to a deviation between the determined and the actual speed of the vehicle up to the speed of the respective particle or the respective particles. Another problem is that an ent ^¬ speaking incorrect measurement depending on the type of comparable used sensor device with technical means of the sensor device itself, that can be seen frequently without additional components or only associated with other disadvantages to. In this context, it should be noted in particular that on the one hand a reliable error detection desired or is required. On the other hand, ie lead to emp ^¬-sensitive error disclosure mechanisms even without an actual disorder, for example, without proper spurious particles to a false detection of measurement errors and, ultimately, for example, to a restriction of the availability of the sensor device used.

The present invention has for its object to provide a method for detecting a measurement error in the determination of the speed of a vehicle and / or the determination of a distance traveled by the vehicle, can be detected by the measurement error in a relatively simple yet reliable manner. This object is inventively achieved by a method for detecting a measurement error in the determination of the speed of a vehicle and / or the determination of a distance traveled by the vehicle path, wherein the speed of the vehicle is determined by means ei ^¬ ner vehicle-side optical sensor device and a measurement error is detected by a deviating from the direction of movement of the vehicle component of the determined speed. The inventive method is characterized in that first in a first step by means of a vehicle-side optical sensor device, the speed of the vehicle is determined. In this case, the determination of the speed of the vehicle by means of the optical sensor device is carried out regardless of whether the ultimate speed of the vehicle and / or the Retired from the vehicle ^¬ put route to be determined. Within the scope of the present invention, such an optical sensor device is generally used in such a sensor device. stood, with optical means a contactless determination or measurement of the speed of the vehicle with respect to the environment, ie, for example be ^¬ attracted to the ground or the road allows. A corresponding optical sensor device may, for example, be a sensor which-in functional principle comparable to an optical computer mouse-generates a light beam, for example with a wavelength in the near infrared range, ie, for example, with a wavelength of 850 nm, with the aid of light-emitting diodes. on the top of the rail and determines the speed of the vehicle by means of an analysis of the reflected radiation. According to the second step of the method according to the invention, a measurement error is now detected on the basis of a component deviating from the direction of movement of the vehicle of the determined speed. The process of the invention makes this use of the knowledge that interferences, for example in the form of the particle flight described above, usually, about due to turbulence, so out forms ^¬ are that the respective particles or particles also from the direction of movement of the vehicle have different speed component. This deviating from the direction of movement of the vehicle component of the determined speed is thus suitable for ei ^¬ nen measurement errors in the determination of the speed of the vehicle and / or the distance traveled by the vehicle, in particular due to particle flight to recognize. Advantageously, this is possible without the need for ^¬ additional components, such as in the form of additional sensors are required. In addition, due to the conventionally known orientation of the vehicle-side optical sensor device with respect to the direction of movement of the vehicle On the basis of the deviating from the direction of movement of the vehicle component of the determined speed a particularly reliable detection of the interference and thus also the associated measurement error possible.

In principle, in the context of the method according to the invention, the vehicle may be a vehicle of any type for which a determination of the speed and / or the traveled distance is to be made.

According to a particularly preferred embodiment of the method according to the invention, the speed of a track-bound vehicle, in particular of a rail vehicle, is determined by means of the optical sensor device. This is ^¬ geous because the advantages of this process come to fruition in connection with rail vehicles especially true. Thus, in rail vehicles due to the relatively low friction in the wheel-rail system are generally preferred such measurement methods for determining the speed or the distance traveled, which are independent of a possible slippage of the wheels of the rail vehicle. Moreover, in tracked vehicles, which are adjacent to rail vehicles for example, han ^¬ spindles can to track-guided vehicles with rubber tires, clearly defined the direction of the vehicle by the tracking so that deviates from the BEWE ^¬ supply direction or the expected direction of the vehicle Component of the determined Ge ^¬ speed clearly on interference, in particular in the form of mobile particles in the form of rain or water, snow or ice, can be traced.

According to a further particularly preferred embodiment of the method according to the invention is by means of the optical Sensor device determines the speed of the vehicle with respect to at least two linearly independent measuring axes. This is advantageous because by using at least two linearly independent measuring axes deviating from the direction of movement of the vehicle component of the determined Ge ^¬ speed can be reliably detected.

Preferably, the inventive method is hereby wei ^¬ terhin designed such that the speed of the vehicle soreinrichtung at least two linearly independent measuring axes is determined, one of which is aligned parallel to the direction of movement of the vehicle in relation to means of the optical transmitter. This is advantageous because by means of the paral lel ^¬ aligned with the direction of movement of the vehicle measuring axis in a particularly simple manner, a related to the BEWE ^¬ supply device determining the speed of the vehicle can occur.

Preferably, the inventive method can also be developed such that by means of the optical Sensorein ^¬ direction, the speed of the vehicle with respect to ^{¬ at} least two linearly independent, perpendicular to each other ^¬ aligned measuring axes is determined. The use of two linearly independent, mutually perpendicular oriented measurement axis for determining the speed of the vehicle has the advantage that in this way the deviating from the direction of movement of the vehicle component of the determined Ge ^¬ speed in a particularly simple and ultimately therefore particularly reliable manner can be determined.

With regard to the device, the present invention has the object, a vehicle-side device for determining the speed of a vehicle and / or for Determining a distance traveled by the vehicle to specify that allows it in a relatively simple yet reliable way to detect measurement errors. This object is inventively achieved by a vehicle-side device for determining the speed ei ^¬ nes vehicle and / or for determining a distance traveled by the vehicle path, wherein the device has a vehicle-side optical sensor means for determining the speed of the vehicle and is designed to ei ^¬ NEN measuring error on the basis of a deviating from the direction of movement of the vehicle component of the determined speed. The advantages of the vehicle-mounted device according to the invention correspond to those of the method according to the invention, so that in this regard reference is made to the corresponding above statements. The same applies with regard to the preferred developments of the device according to the invention mentioned below in relation to the corresponding preferred developments of the method according to the invention, so that reference is also made in this regard to the corresponding explanations given above. Preferably, the device of the invention is such wei ^¬ ned, and that the optical sensor means is adapted to determine the speed of the vehicle with respect to at least two linearly independent measuring axes. According to a further particularly preferred embodiment of the device according to the invention, the optical sensor device is in this case furthermore designed to control the speed of the vehicle with respect to at least two linearly independent ones To determine measuring axes, one of which is aligned parallel to the direction of movement of the vehicle.

Advantageously, the device according to the invention can also be so pronounced that the optical sensor device is designed to determine the speed of the vehicle with respect to at least two linearly independent, perpendicularly aligned measuring axes. The invention further comprises a vehicle with a device according to the invention or with a device according to one of the aforementioned preferred developments of the device according to the invention. In this case, the vehicle may preferably be track-bound

Vehicle, in particular as a rail vehicle, executed.

The invention will be explained in more detail below with reference to ^exemplary embodiments. This shows

Figure 1 is a schematic diagram of a vehicle with an embodiment of the invention ^shown SEN means,

Figure 2 for explaining an embodiment of the method according to the invention, a first schematic diagram and

Figure 3 for further explanation of the exemplary embodiment of the method according to the invention, a second schematic diagram.

FIG. 1 shows a schematic sketch of a vehicle with an exemplary embodiment of the device according to the invention. Dargstellt is a vehicle 10 in the form of a Schienenfahr ^¬ stuff that moves at a speed o to the right ^¬ moves. The vehicle 10 has an optical sensor device 20 which serves for determining the speed of the vehicle 10 and, based thereon, for determining the distance traveled by the vehicle 10. In Figure 1, a change made by the optical sensor unit 20 measured value acquisition here is by way of example that, for example, the upper edge of a traveled by the vehicle 10 bar, the reflected light beam 22 indicated by means of an outgoing from the optical ^¬ rule sensor means 20 the light beam 21 and one of the ground.

The optical sensor means 20 is means to a processing 24 attached, which serves for further processing of the detected from the optical sensor device 20 speed and can be formed for example as part of an on-board computers ^¬ the vehicle 10. It should be noted that the processing device 24 deviating from the illustration of Figure 1 could of course also be formed as an integral part of the optical sensor device 20, in which case the vehicle-side device 25 would essentially be formed by the optical sensor device 20.

In practice, the problem can now arise that undesirable and unrecognized measurement errors occur, in particular due to moving particles in the detection range of the optical sensor device 20. This is indicated in Figure 1 by rain or water droplets 30, which move in the loading ^¬ rich between the on-vehicle device 20 and the top of rail and described within the scope Embodiment, a speed component v _R ent ^¬ opposite to the direction of movement of the vehicle 10 aufwei ^¬ sen. This parallel to the direction of movement of the vehicle 10 aligned velocity component v _R can now lead to the speed of the vehicle 10 and thus the distance traveled by the vehicle 10 path connected to a large ^¬ SEN measurement error determined by the optical sensor device 20th Thus, the raindrops 30 could lead in the illustrated embodiment to the fact that the determined speed of the vehicle 10 erroneously ^¬ deviates at most by the speed v _R of the actual speed v _{0 of} the vehicle 10.

To be able to reliably identify the corresponding measurement errors, thereby creating the prerequisite for a corresponding Cor ^¬ rection or into account, the vehicle-mounted device 25 is now formed advantageously in the context of the described embodiment of the device according to the invention, corresponding measurement error check-hand one of the direction of movement Vehicle 10 deviating component of the determined speed erken ^¬ NEN. This means that the optical sensor means 20, the speed of the vehicle 10 detects not only with respect to the direction of movement of the vehicle 10, but in back also with respect to a linearly independent measurement thereof ^¬ axis or determined. This will be explained in more detail in the following ^¬ with reference to Figures 2 and 3.

Figure 2 shows for explanation of an embodiment of the inventive method a first schematic slide ^¬ program. In this graph, a relationship parallel to ^¬, in the direction of movement of the vehicle 10 aligned component v is the speed of the vehicle 10 is illustrated as a radio _p ^¬ tion of time t. It can be seen here that going to 30 spikes or fluctuations of the determined rate resulting from the actual speed o the vehicle 10 through the particle flight in the form of raindrops, the vehicle velocity o and the speed v _R drops of rain ^¬ upwardly by the sum of the vehicle is limited 30 , The respective value of VELOCITY ^¬ keitskomponente v _p in this case depends in particular over time ^¬ sondere depend on the extent to which the processing performed by the optical sensor means 20 at the respective time measurement by the raindrop 30 is affected. Of

Furthermore, it should be noted that the raindrops 30 itself uniform velocity v _R will exhibit motion in ^¬ direction of the vehicle 10 in practice usually no regard ih ^¬ res amount.

Regardless of the specific respective time profile of the velocity component v is _p übli ^¬ cherweise in practice, at least not be possible or readily know solely on the basis of this time course to ER- that, as regards the determination of the speed of the vehicle 10 and / or the Retired from the vehicle 10 ^¬ laid distance exists an error caused by the particles in the form of raindrops 30 measurement error. However, the detection of this measurement error is possible based on a deviating from the movement direction of the vehicle 10 component of ermit ^¬ tete speed, as will be explained in more detail with reference to FIG 3.

FIG. 3 shows a second schematic diagram to further explain the exemplary embodiment of the method according to the invention. In a representation similar to that in FIG. 2, FIG. 3 illustrates the speed v _s which is measured by the vehicle-side optical sensor device 20 in a direction perpendicular to the direction of movement of the vehicle 10. has been measured or recorded. This means that v _p and v _s are each determined with respect to the measuring axes ^¬, the horizontal, ie parallel to the floor of the vehicle 10, extending in a plane.

In particular, due to the movement direction of the vehicle 10, which is uniquely predetermined by the tracking, it would be expected in the undisturbed state of the optical sensor device 20 that the velocity component v _{s is} constantly zero. 3, however, values are also measured here as a function of time t, which differ from zero and are caused by velocity components of the raindrops 30 deviating from the direction of movement of the vehicle 10. On the basis of the speed component v _s , it is thus now possible to detect that the determined value of the speed of the vehicle 10 and / or the determined value of the distance covered by the vehicle 10 due to the particles in the form of raindrops 30 are subject to a measurement error is. This can be examples play as possible, additionally or alternatively to use an additional sensor device for measuring with the optical sensor device 20, although in the normal case, that is, in the undisturbed state, lower accuracy on ^¬ has, as the optical sensor device 20, in the case of Disruption of the same can be used as a fallback level.

According to the embodiments described above, the present invention is characterized in particular by the fact that in connection with the determination of the speed of a vehicle and / or the determination of a distance traveled by a vehicle by determining a deviating from the direction of movement of the vehicle speed component to particularly simple and reli- In particular, the disclosure of such measurement errors is possible, which are caused by particle flight between the optical sensor device and the ground.

Claims

claims 1. A method for detecting a measurement error in Determined ^¬ development speed of a vehicle (10) and / or the determination of one of the vehicle (10) covered Route, where  - By means of a vehicle-side optical sensor device (20), the speed of the vehicle (10) is determined, and - a measurement error based on a direction of movement of the vehicle (10) different component of the determined Ge ^¬ speed is detected. 2. The method according to claim 1, d a d u r c h e c e n c i n e s that by means of the optical sensor device (20), the speed of a track-bound vehicle, in particular a Rail vehicle is determined. 3. The method according to claim 1 or 2, d a d u r c h e c e n c i n e s that the speed of the vehicle (10) is determined by means of the optical sensor device (20) with respect to at least two linearly independent measuring axes. 4. The method according to claim 3, d a d u r c h e c e n c i n e s that the speed of the vehicle by means of the optical sensor device (20) (10) is determined with respect to at least two linearly independent measuring axes, one of which is aligned with a paral lel ^¬ to the moving direction of the vehicle (10). 5. The method according to claim 3 or 4, d a d u r c h e c e n c i n e s that the speed of the vehicle (10) is determined by means of the optical sensor device (20) with respect to at least two linearly independent measuring axes oriented perpendicular to one another. 6. Vehicle-side device (25) for determining the speed of a vehicle (10) and / or for determining a distance traveled by the vehicle (10), wherein the device (25)  - Has a vehicle-side optical sensor device (20) for determining the speed of the vehicle (10) and - Is designed to detect a measurement error on the basis of one of the Be ^¬ wegungsrichtung of the vehicle (10) deviating component of the determined speed. 7. Device according to claim 6, d a d u r c h e c e n c i n e s that the optical sensor device (20) is designed to determine the Ge ^¬ speed of the vehicle (10) with respect to at least two linearly independent measuring axes. 8. Device according to claim 7, d a d u r c h e c e n c i n e s that the optical sensor device (20) is designed to determine the Ge ^¬ speed of the vehicle (10) with respect to at least two linearly independent measuring axes, one of which is oriented parallel to a direction of movement of the vehicle (10). 9. Device according to claim 7 or 8, characterized in that the optical sensor device (20) is designed to determine axes on at least two linearly independent, vertically aligned measuring the Ge ^¬ speed of the vehicle (10) with respect. 10. Vehicle (10) with a device according to one of claims 6 to 9. 11. Vehicle according to claim 10, d a d u r c h e c e n c i n e s that the vehicle (10) is a track-bound vehicle, in particular a rail vehicle.