Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Indication or control of braking – acceleration – or deceleration
Reexamination Certificate
2001-02-12
2002-12-10
Cuchlinski, Jr., William A. (Department: 3661)
Data processing: vehicles, navigation, and relative location
Vehicle control, guidance, operation, or indication
Indication or control of braking, acceleration, or deceleration
C701S093000, C701S301000, C073S17800T, C180S170000
Reexamination Certificate
active
06493625
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a method for controlling the speed of a motor vehicle and the distance of the motor vehicle to at least one motor vehicle driving ahead. A setpoint trailing distance to the motor vehicle driving ahead is input, and at least the speed of the motor vehicle, the distance, and the speed relative to the motor vehicle driving ahead is determined by at least one detector. The motor vehicle is decelerated or accelerated as a function of the relative speed, in response to the detected distance deviating from the setpoint trailing distance. In response to the motor vehicle driving ahead being lost from the detection range of the detector (target loss), the speed of the motor vehicle driving ahead is calculated from the relative speed determined prior to losing the target, from the driving speed of the motor vehicle, and from the actual distance.
BACKGROUND INFORMATION
For example, such a method is described in European Published Patent Application No. 0 846 587. A special problem in controlling distance is that a detected control object, i.e., a motor vehicle driving ahead, is lost from the detection range of the detector, while cornering. This only occurs until the motor vehicle itself has driven sufficiently through the curve, that its detector again detects the motor vehicle driving ahead, and can once more control the distance to the motor vehicle driving ahead. Various scenarios can be tested in a complicated manner in order to adjust the reaction of the motor vehicle to a new situation. Apart from cornering, the possible scenarios include the preceding vehicle detected up to this point performing a passing maneuver or turning off. The handling of the motor vehicle is only adjusted after determining what situation led to the loss of the detected object.
European Published Patent Application No. 0 899 148 describes a method for detecting a control object, in which the handling of the motor vehicle is reliably controlled with respect to the control object, in the case of slow changes, as well as short-term and sudden changes in the motor-vehicle cornering radius. This is accomplished in that, after the control object has left the traffic lane of the motor vehicle, the current position of the motor vehicle is compared to a projection of the control object onto the current position of the motor vehicle, the projection being derived from an actually detected position of the control object. The distance of the motor vehicle is controlled with respect to the control object when the projection and the current position of the motor vehicle approximately correspond to each other. Therefore, the current position of the motor vehicle is compared to information regarding the past position of the control object. That is, an imaginary lag exists for each control object, which the control object pulls behind it. Thus, it is described how the control can operate, when the control object has left the traffic lane of the motor vehicle, e.g., in response to entering a curve. However, the control object is continuously in the detection range of the detector.
German Published Patent Application No. 196 50 168 describes a method for controlling the speed of a motor vehicle, in which, in order to improve the ride comfort of the cruise control, the reason for the object loss may be ascertained in response to the ranging sensor losing the object, and the driving speed is controlled as a function of the reason for losing the object.
German Published Patent Application No. 44 22 982 describes an adaptive cruise control system, in which the vehicle is controlled so that a setpoint trailing distance is maintained from a motor vehicle driving ahead. Then, when the ranging sensor loses sight of the motor vehicle driving ahead while distance is being controlled, the speed of the vehicle driving ahead is estimated, and a setpoint driving speed, which the controlled motor vehicle should maintain, is established in accordance with the estimated speed of the motor vehicle driving ahead.
SUMMARY
It is an object of the present invention to provide a method that controls the speed and distance of a motor vehicle in accordance with at least one motor vehicle driving ahead.
The above and other beneficial objects of the present invention are achieved by providing a method in which the speed (v
0
) of the motor vehicle driving ahead is derived from the measured values measured prior to the time of losing the target, and, in accordance with a differential time unit (&Dgr;t), a distance (a
ex
) is extrapolated from the driven speed (v) of the motor vehicle and the speed (v
0
) of the motor vehicle driving ahead. Therefore, to continue controlling the distance after losing the target, it is assumed that the previously detected motor vehicle driving ahead continues to travel at the same speed at which it traveled shortly before the time of losing the target. Based on this assumption, the behavior over time of the distance between the two vehicles may be extrapolated using the traveling speed driven by the controlled vehicle.
In a first approximation, speed (v
0
) may be assumed to be a constant speed. In addition, speed (v
0
) may be extrapolated from the speed values (v) and (v
rel
) measured prior to the time of losing the target, as a speed that can change over time. In this case, speed (v
0
) is only changed over a defined time interval and/or only changed within a predefined speed interval (&Dgr;v), in order to prevent sudden changes in speed, and thus, prevent handling that is too uncomfortable.
Distance (a
ex
) may be extrapolated in an iterative manner, according to the formula a
ex
=a
ex
+&Dgr;t·(v
0
−v), where a
ex
=a
0
at time of target loss t=0. Therefore, this is a linear, iterative extrapolation, new value a
ex
being calculated from the respective, previously determined value of extrapolated distance a
ex
, and from respective relative speed v
0
−v multiplied by time interval &Dgr;t. The result of this extrapolation method is both simple and reliable.
In an additional example embodiment, distance a
ex
is extrapolated until the motor vehicle has reached the location of the preceding motor vehicle, at the time that the preceding motor vehicle was lost from the detection range of the detector. Therefore, the extrapolation is not continued over a period of time that would generate too much inaccuracy in the extrapolated values of distances a
ex
. Thus, the extrapolation is only performed until the controlled motor vehicle has reached the point where the motor vehicle driving ahead was last detected. No information was gathered beforehand for the region behind this location, in the direction of travel, so that continuing the extrapolation would result in a substantial risk to the reliability of the adaptive cruise control.
Furthermore, the method according to the present invention may be performed until a motor vehicle driving ahead is once again detected as a control object by the detector. This frequently occurs before the controlled motor vehicle arrives at the location at which the preceding motor vehicle was last detected by the ranging sensor. The reason for this is that, e.g., during cornering, which often results in the target object being lost, the ranging sensor can detect the preceding vehicle again, using its detection range, when the controlled vehicle has driven far enough into the curve. Since, at the time of losing the target object, the motor vehicle driving ahead has also already driven far into the curve, it will normally have been decelerated to a low driving speed. This results in additional security to using the speed of the preceding motor vehicle immediately prior to the time of losing the target object, as the starting point for the extrapolation. Since this speed is less than that of a motor vehicle accelerating out of the curve, the adaptive cruise control is operated on the safe side during the extrapolation.
After the extrapolation is terminated due to a preceding motor vehicle being detected an
Andreas Peter
Baeker Wolfgang
Bizenberger Thomas
Rabba Heiko
Ruchatz Thomas
Cuchlinski Jr. William A.
Hernandez Olga
Kenyon & Kenyon
Volkswagen AG
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