DE102016212792B3 - Method for setting at least one parameter of an ultrasonic sensor and / or an evaluation and control unit and device for distance determination of objects - Google Patents

Abstract

The invention relates to a method for adjusting at least one parameter of an ultrasonic sensor (2-11) and / or a parameter of an evaluation and control unit (12), wherein by means of at least one ultrasonic sensor (2-11, 15) a distance measurement to a pre is performed by comparing the distance measurement with a previously stored reference value (d) for the reference object on the current temperature (T) and at least one parameter of the at least one ultrasonic sensor to be adjusted (2-11) and / / or the evaluation and control unit (12) is adjusted as a function of the determined current temperature (T), and a device (1) for distance determination of objects.

Description

The invention relates to a method for adjusting at least one parameter of an ultrasonic sensor and / or an evaluation and control unit and a device for determining the distance of objects with at least one ultrasonic sensor.

Ultrasonic sensors are widely used for distance determination of objects. A preferred field of application is, for example, the use as an input and Ausparkhilfe in a motor vehicle. The ultrasonic sensors emit sound waves that are reflected by an object. From the duration of the sound waves can then be closed to the distance. It is known that the speed of sound and airborne sound attenuation are dependent on the temperature of the air. Simplified, the speed of sound and airborne sound attenuation increase with increasing temperature. Therefore, the temperature is measured and taken into account in the setting and evaluation of the ultrasonic sensors. The temperature measurements of the air temperature can cause problems in situ. Such situations are, for example, a transition from cold environment to hot environment or vice versa at slow speed and hot engine, such as the entry into a cold parking garage after driving in a hot environment or driving in and out in a cold garage in hot surroundings in reverse, because Usually the temperature sensor is installed in the front region of the motor vehicle.

From the DE 10 2011 083 998 A1 a method for compensating ultrasonic sensors is known, wherein by means of a pressure sensor, the atmospheric pressure is determined to adjust the speed of sound to be considered.

From the DE 10 2013 108 001 A1 It is known to provide two temperature sensors, wherein situational the temperature values of one or the other temperature sensor are used to calibrate the ultrasonic sensors.

It is also known to incorporate a temperature sensor in the ultrasonic sensor to compensate for temperature-dependent changes in the sensor components. However, this temperature sensor can not make any statement about the current air temperature, as it is too slow due to its installation in the sensor for this purpose.

From the DE 43 38 743 A1 a method and a device for operating an ultrasonic sensor is known, in which both monitors the sensitivity and a temperature compensation of the measurement result is performed. This is done by obtaining a signal whose amplitude is a measure of the sensitivity of the ultrasonic sensor by measuring the distance of a stationary marking on the vehicle, which has a known distance to the ultrasonic sensor. From the measured transit time and the theoretical transit time to the obstacle or the marking, a value is obtained which is a measure of the temperature of the ambient air. As a marker, for example, is an edge of a raised license plate carrier, which is attached to a bumper of a motor vehicle and which is located in the detection range of the ultrasonic sensor. The ambient temperature thus obtained can then be used to correct further measurements.

The invention is based on the technical problem of providing an alternative method for adjusting at least one parameter of an ultrasonic sensor and / or an evaluation and control unit, by means of which the difficulties in determining the current temperature are reduced. Another technical problem is the creation of a corresponding device for distance determination of objects.

The solution of the technical problem results from a method having the features of claim 1 and a device having the features of claim 13. Further advantageous embodiments of the invention will become apparent from the dependent claims.

The method for adjusting at least one parameter of an ultrasonic sensor and / or a parameter of an evaluation and control unit by means of at least one ultrasonic sensor, by means of which a distance measurement is performed to a previously defined reference object. By comparing the distance measurement with a previously stored reference value for the reference object is closed to the current temperature and the at least one parameter of the at least one ultrasonic sensor to be adjusted and / or the evaluation and control unit adjusted depending on the determined current temperature. The reference object is the roadway or the ground. The ultrasonic sensor for distance measurement of the reference object may be a separate ultrasonic sensor or else the ultrasonic sensor itself whose parameters are to be adapted. As a result, the current temperature can be determined very easily and inexpensively reliable. If the ultrasound for distance measurement of the reference object is a separate ultrasound sensor, then the reference value can be determined very simply (eg from design data). It is also possible to determine the reference value by means of a calibration measurement by means of the ultrasound sensor. If the vehicle is equipped with a level control, For example, a change in the distance to the reference object (eg floor) must be taken into account accordingly for the reference value. The reference value is also preferably adjusted when the loading state of the vehicle changes. So can be detected on the seat occupancy sensors, how many people are in the vehicle and thereby the reference value for the distance to the ground are adjusted.

It should be noted that the distance measurement of the reference object can also be a pure transit time measurement.

The current temperature T of the ambient air can then be determined, for example, as follows: T = (4 * d ² * T ₀ ) / (t ² * c ₀ ² ), where d is the pre-stored reference value, T ₀ = 273 K, t is the echo transit time of the distance measurement and c ₀ = 331.8 m / s (speed of sound in air at T ₀ ).

From the current temperature, for example by means of lookup tables, the current speed of sound can be determined, in which case the evaluation and control unit takes into account the current speed of sound as a parameter in the distance determination of objects from the transit times of the echo signals. Additionally or alternatively, from the current temperature, for example by means of lookup tables, the current airborne sound attenuation can be determined and adjusted according to the transmission sound pressure and / or the receiving sensitivity of the ultrasonic sensor to be adjusted.

The advantage of a separate ultrasonic sensor is that the conditions for the distance measurement can be optimized very easily. However, another component is needed.

Therefore, preferably, the distance measurement to the reference object is performed by at least one ultrasonic sensor to be set itself, so that no other components are required (for example, an ultrasonic sensor of a parking assistance system).

In parking aid assistance systems usually the transmission sound pressure and the reception sensitivity are set such that the ground is largely not detected. Therefore, preferably for the distance measurement of the reference object (in particular bottom) of the ultrasonic sensor is set to maximum reception sensitivity and maximum transmission sound pressure.

In a further embodiment, a plurality of ultrasonic sensors are present, wherein only a part of the ultrasonic sensors are used parallel to the distance measurement to the reference object, whereas the other ultrasonic sensors are operated in an object detection mode. In this case, it is preferable to change according to a transmission pattern predetermined by the evaluation and control unit, which ultrasonic sensor is used for the distance measurement to the reference object and which is used in an object detection mode. This ensures that the evaluation and control unit at any time receives signals from objects (real obstacles).

In a further embodiment, the transmission signals of the ultrasonic sensors for the distance measurement to the reference object are unmodulated and the transmission signals for the ultrasonic sensors are modulated in the object detection mode so that they can not influence one another. An adjacent ultrasound sensor, which then receives ultrasound signals, can then easily distinguish whether they are signals from the reference object (unmodulated) or (signals) modulating signals from a real object and then ignoring, for example, the signals from the reference object.

In a further alternative embodiment, the transmission signals of the ultrasonic sensors for the distance measurement to the reference object are modulated with modulation / code A and the transmission signals for the ultrasonic sensors are modulated in the object detection mode with modulation / code B, so that they can not influence one another. An adjacent ultrasonic sensor, which then receives ultrasonic signals, can then easily distinguish whether they are signals from the reference object (modulation / code A) or ignore signals from a real object (modulation / code B) and then, for example, the signals from the reference object.

In a further alternative embodiment, for the distance measurement to the reference object during forward travel, the ultrasonic sensors are used on the rear bumper and during the reverse drive the ultrasonic sensors on the front bumper are used. In this way, only the ultrasonic sensors are used for this purpose, which are not absolutely necessary.

In a further embodiment it is provided that, if the reference object is not detected, the parameter (s) of the at least one ultrasonic sensor and / or the evaluation and control unit are set to a standard value. Such a case may be given, for example, with a snow-covered surface or a steep drop in the ground.

In a further embodiment, the determined temperature is plausibilized by comparison with further measurements and / or by comparison with defined limit values for the temperature and / or by comparison with maximum permissible temperature change rates.

The device for determining the distance of objects comprises at least one ultrasonic sensor and at least one evaluation and control unit, wherein the evaluation and control unit is designed such that it can set at least one parameter of the at least one ultrasonic sensor and from the measured values of the at least one ultrasonic sensor Object distance can determine, wherein the at least one parameter of the ultrasonic sensor and / or a parameter of the evaluation and control unit is set in dependence on the temperature. In this case, the device is designed such that by means of the at least one ultrasonic sensor or a further ultrasonic sensor, a distance measurement is performed to a previously defined reference object, wherein by comparing the distance measurement with a previously stored reference value for the reference object to the current temperature is closed and the at least one parameter of the at least one ultrasonic sensor and / or at least one parameter of the evaluation and control unit is set in dependence of the determined temperature. The reference object is the roadway or the ground. With regard to the further embodiments, reference may be made in full to the preceding statements relating to the method. A preferred field of application of the invention is the use in a parking assistance assistance system of a motor vehicle.

The invention will be explained in more detail below with reference to a preferred embodiment. The figures show:

1 3 is a schematic block diagram of a device for distance determination of objects,

2 a schematic representation for illustrating the determination of a reference value and

3 a flowchart of a method for adjusting a parameter of an ultrasonic sensor and an evaluation and control unit.

In the 1 is a device 1 for determining the distance of objects comprising ultrasonic sensors 2 - 11 as well as an evaluation and control unit 12 , The ultrasonic sensors 2 - 11 can transmit and receive ultrasound while the evaluation and control unit 12 the sensitivity of the ultrasonic sensors 2 - 11 and their send sound pressure can be adjusted. For example, the ultrasonic sensors 2 - 4 in a front bumper, the ultrasonic sensors 5 - 7 in a rear shock absorber and the ultrasonic sensors 8th - 11 arranged in the side areas of a motor vehicle. The ultrasonic sensors 2 - 11 measure transit times of echo signals, which are then sent to the evaluation and control unit 12 be transmitted via at least one interface BS. The evaluation and control unit determines the runtime 12 taking into account a speed of sound at a current temperature T an object distance. In this case, the evaluation and control unit 12 Temperature data from a temperature sensor 13 receive. This temperature sensor 13 but is not mandatory.

Rather, the device 1 configured to from measurements of at least one of the ultrasonic sensors 2 - 11 to determine the current temperature T. This is in the evaluation and control unit 12 a reference value d is stored for a reference object. For example, the reference value d for the ground B with knowledge of the orientation of the ultrasonic sensors 2 - 11 and thus their transmission lobe 14 be determined in advance (see 2 ). Are the ultrasonic sensors 2 - 11 installed symmetrically, so is the reference value d for all ultrasonic sensors 2 - 11 equal. Otherwise, have different reference values for the individual ultrasonic sensors 2 - 11 be deposited. If now the current temperature is to be determined, then an ultrasonic sensor 2 - 11 or more ultrasonic sensors 2 - 11 activated with maximum sensitivity at maximum transmission sound pressure, the duration of the echo signals from the reference object ground B detected and to the evaluation and control unit 12 transmitted, which then determines therefrom the current temperature T. Depending on the current temperature T then determines the evaluation and control unit 12 a speed of sound at the current temperature T and, depending on a determined airborne sound attenuation, the sensitivity and the transmission sound pressure of the ultrasonic sensors 2 - 11 for an object detection mode. Alternatively or additionally, at least one further separate ultrasonic sensor 15 be provided, which measures the transit times to a reference object.

The separate ultrasonic sensor 15 is ideally located under the vehicle and is aligned directly on the ground. (eg also usable for systems for automatic tailgate opening by means of foot detection)

If the reference object can not be detected, use the evaluation and control unit 12 Default settings. Furthermore, the evaluation and control unit 12 Plausibilisierungsmechanismen on to check the detected current temperature T.

It is preferably provided that the ultrasonic sensors 2 - 11 for the distance measurement of the reference object to send unmodulated, whereas the remaining ultrasonic sensors 2 - 11 send signals modulated in the object detection mode, so that an ultrasonic sensor 2 - 11 can distinguish the received signals.

In the 3 a simplified flowchart of the method is shown in one embodiment. In a first step S1, a vehicle movement is detected. In a second step S2, it is queried whether a reverse drive or a slow forward drive is present. If this is the case (+), the ground is detected as a reference object in a step S3, that is to say the transit time of the echo signals is determined. Otherwise (-), the current temperature T by means of the temperature sensor 13 determined (step S4). However, this branch is not mandatory. In parallel, the vehicle height is retrieved from a level control in a step S5 and determined therefrom in a step S6, the reference value d for the ground. In a step S7, the current temperature T of the air is then determined by means of the reference value d and the measured transit time from step S3. Depending on the determined current temperature T, the speed of sound c (step S8) is corrected and the reception sensitivity E and the transmission sound pressure S of the ultrasonic sensors are adjusted (step S9).

Claims (15)

Method for setting at least one parameter of an ultrasonic sensor ( 2 - 11 ) and / or a parameter of an evaluation and control unit ( 12 ), wherein by means of at least one ultrasonic sensor ( 2 - 11 . 15 ) is carried out a distance measurement to a previously defined reference object, wherein by comparing the distance measurement with a previously stored reference value (d) for the reference object to the current temperature (T) is closed and at least one parameter of at least one to be set Ultrasonic sensor ( 2 - 11 ) and / or the evaluation and control unit ( 12 ) is adjusted as a function of the determined current temperature (T), characterized in that the roadway or the ground (B) is used as the reference object. A method according to claim 1, characterized in that the receiving sensitivity (E) and / or the transmission sound pressure (S) and / or the speed of sound used (c) are adapted for a signal evaluation. Method according to one of claims 1 or 2, characterized in that at least one ultrasonic sensor to be set ( 2 - 11 ) is used for the distance measurement to the reference object. Method according to one of the preceding claims, characterized in that for the distance measurement to the reference object of the ultrasonic sensor ( 2 - 11 . 15 ) is set to maximum reception sensitivity (E) and maximum transmission sound pressure (S). Method according to one of the preceding claims, characterized in that in the case of a plurality of ultrasonic sensors ( 2 - 11 ) only a part of the ultrasonic sensors ( 2 - 11 ) are used parallel to the distance measurement to the reference object, whereas the other ultrasonic sensors ( 2 - 11 ) in an object detection mode. A method according to claim 5, characterized in that the transmission signals of the ultrasonic sensors ( 2 - 11 ) for the distance measurement to the reference object unmodulated and the transmission signals for the ultrasonic sensors ( 2 - 11 ) are modulated in the object detection mode. A method according to claim 5, characterized in that the transmission signals of the ultrasonic sensors ( 2 - 11 ) for the distance measurement to the reference object with a modulation / code A and the transmission signals for the ultrasonic sensors ( 2 - 11 ) are modulated in object detection mode with another modulation / code B. Method according to one of the preceding claims, characterized in that, if the reference object is not detected, the one or more parameters of the at least one ultrasonic sensor ( 2 - 11 ) and / or the evaluation and control unit ( 12 ) can be set to a standard value. Method according to one of the preceding claims, characterized in that the determined temperature (T) is made plausible by comparison with further measurements and / or by comparison with defined limit values and / or by comparison with maximum permissible temperature change rates. Method according to one of the preceding claims, characterized in that the already existing ultrasonic sensors of a parking assistance system or a system for automatic tailgate opening are used by foot detection. Method according to one of the preceding claims, characterized in that for the distance measurement to the reference object during forward travel, the ultrasonic sensors at the rear Bumpers and during the reverse drive the ultrasonic sensors are used on the front bumper. Method according to one of claims 5 to 11, characterized in that is changed according to a predetermined transmission pattern, which ultrasonic sensor for distance measurement to the reference object and which is used in an object detection mode. Contraption ( 1 ) for distance determination of objects, comprising at least one ultrasonic sensor ( 2 - 11 ) and at least one evaluation and control unit ( 12 ), wherein the evaluation and control unit ( 12 ) is designed such that it comprises at least one parameter of the at least one ultrasonic sensor ( 2 - 11 ) and from the measured values of the at least one ultrasonic sensor ( 2 - 11 ) can determine an object distance, wherein the at least one parameter of the ultrasonic sensor ( 2 - 11 ) and / or a parameter of the evaluation and control unit ( 12 ) is adjusted as a function of the temperature (T), wherein the device ( 1 ) is formed such that by means of the at least one ultrasonic sensor ( 2 - 11 ) or another ultrasonic sensor ( 15 ) is carried out a distance measurement to a previously defined reference object, wherein by comparing the distance measurement with a previously stored reference value (d) for the reference object to the current temperature (T) is closed and the at least one parameter of the at least one Ultrasonic sensor ( 2 - 11 ) and / or the evaluation and control unit ( 12 ) is set as a function of the determined temperature (T), characterized in that the device ( 1 ) is designed such that as a reference object, the roadway or the ground (B) is detected. Device according to claim 13, characterized in that the device ( 1 ) several ultrasonic sensors ( 2 - 11 ), the device ( 1 ) is formed such that only a part of the ultrasonic sensors ( 2 - 11 ) are used parallel to the distance measurement to the reference object, whereas the other ultrasonic sensors ( 2 - 11 ) in an object detection mode. Device according to one of claims 13 or 14, characterized in that the device is designed such that the reference value for the distance to the ground is adjusted depending on the load condition of the vehicle and / or the adjustment of the level control.

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