EP1915271A1

EP1915271A1 - Method for deactivating an automatic starting function of a distance-related speed regulating system

Info

Publication number: EP1915271A1
Application number: EP06762990A
Authority: EP
Inventors: Alexander Meske; Dietrich Sturm; Thomas Burtsche
Original assignee: Bayerische Motoren Werke AG
Current assignee: Bayerische Motoren Werke AG
Priority date: 2005-08-13
Filing date: 2006-08-05
Publication date: 2008-04-30
Also published as: WO2007019980A1; US20080133103A1; DE102005038489A1

Abstract

The invention relates to a method for deactivating an automatic starting function of a distance-related speed regulating system in a motor vehicle (EF). According to said method, the speed regulating system performs a distance-related regulation on a detected target object (VF) and the motor vehicle is maintained at a standstill according to the stationary target object. According to the invention, the automatic starting function is automatically deactivated if a mobile object (F) is detected between the stationary target and the motor vehicle.

Description

A method of disabling an automatic start-up function of a distance-related cruise control system

The invention relates to a method for deactivating an automatic starting function of a distance-related driving speed control system in a motor vehicle according to the preamble of patent claim 1.

Motor vehicles with a distance-related vehicle speed control system with distance sensors can already be purchased from some manufacturers today. Such a system, for example, offered to the assignee of the present patent application under the name "Active Cruise Control" makes it possible to maintain the motor vehicle with a desired or a correspondingly lower one while driving a desired distance to a motor vehicle traveling in front of it (this is referred to as the target object) In principle, the well-known driving speed control, which adheres to a certain predefined speed, extends it by an additional distance function so that the use of such an "active" driving speed control is also possible in dense motorway and highway traffic. This so-called "active vehicle speed control" keeps the specified desired speed if the driver's own lane is free. the own speed is adapted to that of the preceding motor vehicle or target object such that a distance control contained in the "active driving speed control" or in the corresponding speed control system automatically adheres to a situation-appropriate distance to the vehicle in front or target object.

Such "Active Cruise Control" systems can only be used in a speed range of 30 - 180 km / h, while in the speed range below 30 km / h this system can not be activated or switches itself off automatically according to a specific algorithm. to which in principle likewise must be kept distance - not or only partly used for the regulation.

In order to be able to use a speed control system with distance sensors even in the speed range below 30 km / h, in particular in traffic jams, this requires a sensor range of vision which is expanded by additional sensors. Furthermore, an algorithm must be able to differentiate between relevant stationary and moving target objects. A possible system characteristic could be that a distinction is made between a conventional rule area, in which no reaction to standing goals, and a stop and go area, in which standing target objects are reacted. This so-called. Stop & Go area may be limited in terms of speed upwards by a limit value, for example, in the order of 30 km / h. Such an extended distance-related driving speed control system is known, for example, from DE 101 51 717 A1.

In DE 199 58 520 A1, such a system is also disclosed. According to this system, after reaching standstill in controlled operation, an automatic starting or starting up to a certain, predetermined time limit after stopping possible. Thereafter, a ride can only be done after a release by the driver.

The object of the invention is to improve the functionality of a known distance-related vehicle speed control system, which can also be operated in the so-called. Stop & Go area, with regard to the automatic starting function on.

This object is achieved by a method according to claim 1. Advantageous developments are the subject matters of the dependent claims.

The inventive method for deactivating an automatic Losfahrfunktion ^'of a distance-related cruise control system in a motor vehicle, the cruise control system makes a distance-based scheme to a detected target object and the motor vehicle is also kept at a standstill due to be present in the stationary target object, characterized by the fact that the automatic start-up function when detecting an object which is located between the stationary target object and the own motor vehicle is automatically deactivated.

In principle, a stationary object can only be a target object for the distance-related vehicle speed control system if it has already been identified as being moving before. An a priori stationary object will not become a target object in an already active distance-related cruise control system. However, if the distance-related vehicle speed control system is activated only during the standstill of the motor vehicle equipped with the vehicle speed control system, an already stationary object can also become the target object if the stationary object is the object most relevant to the distance-related vehicle speed control. In the method according to the invention, it is assumed that, in principle, at least for a certain period of time, it is possible to automatically start the motor vehicle held after the standstill has been reached in controlled operation. In contrast to the known prior art, however, this method offers the advantage that this automatic starting function is automatically deactivated in the event of a potential danger situation. If, due to the automatic release function, the motor vehicle would simply start moving if the target object previously in standstill started again, a collision could occur if the driver is inattentive, if another object is located between the previously detected target object and the motor vehicle would be located. Such objects may be, for example, pedestrians or cyclists who have moved between the target object and own vehicle during the stoppage phase. The deactivation of the automatic start-up function must be communicated to the driver visually, acoustically or haptically.

Advantageously, the automatic start-up function when detecting an object between the stationary at a standstill target object and the motor vehicle is only deactivated when the direction of movement of the detected object is substantially perpendicular to the vehicle longitudinal axis. This can ensure that the automatic start-up function is not already deactivated, for example, when a cyclist passes by the two motor vehicles and possibly only slightly reaches the area between the stationary target object and the vehicle equipped with the distance-related cruise control system.

In order to deactivate the automatic starting function, advantageously the entire distance-related driving speed control system can be deactivated. The driver of the motor vehicle must therefore activate again the distance-related cruise control system, if he the Want to continue using the functionality of this system. Thus, it can be ensured that an automatic starting is only carried out when the driver has deliberately re-enabled the distance-related cruise control system.

So that the motor vehicle does not unintentionally roll off after deactivation of the distance-related driving speed control system, the motor vehicle is advantageously kept in a standstill by means of an automatically activated braking function when deactivating the distance-related driving speed control system. The automatically activated brake is only released when the driver performs an operation of a Bedielelements provided for this purpose, for example. An actuation of the brake pedal. This takeover request is communicated to the driver visually, acoustically or hap- tically.

In the drawing, an embodiment of the invention is shown. It shows

Fig. 1 shows a traffic situation at time t1 and

Fig. 2 is a traffic situation at time t2.

FIG. 1 shows a traffic situation at a point in time t1 at a road intersection. The own vehicle EF is equipped with a distance-related vehicle speed control system and is also kept at standstill at time t1 in the course of the distance-related vehicle speed control with a distance d to the vehicle VF traveling ahead or currently stationary. The preceding vehicle VF is the current target VF. Right next to the own vehicle EF is at the time t1 another object, namely a cyclist F. The distance-related vehicle speed control system of the own vehicle EF comprises an automatic start-up function, whereby the own vehicle EF would automatically drive off if the stationary target object would move forward again.

FIG. 2 shows a traffic situation subsequent to the traffic situation from FIG. 1 at time t2. At this point in time t2, the own vehicle EF is still kept stationary due to the target object VF standing still.

In contrast to the traffic situation from FIG. 1, at the time t2 the cyclist F is no longer next to the own vehicle EF, but between the target object VF standing still and the own vehicle EF. As soon as this moving object, ie the cyclist F, is detected between the two vehicles VF and EF, the distance-related driving speed control system with the integrated automatic starting function is automatically deactivated. In order to prevent unintentional rolling of the own vehicle EF, an automatic braking function is activated simultaneously with the deactivation of the distance-related driving speed control system, whereby the own vehicle EF is kept in the state. In addition, the driver of the own vehicle EF is informed by means of an acoustic signal S that the distance-related driving speed control system has been automatically deactivated and thus the driver must again take over the control of the own vehicle EF.

Once the driver has made a dedicated operation of an operating element which indicates that the driver of the own vehicle EF has noticed the automatic deactivation of the distance-related cruise control system, the automatic braking function is deactivated again and the driver is now responsible for braking the own vehicle EF ,

Claims

claims

A method for deactivating an automatic start-up function of a distance-related cruise control system in a motor vehicle, wherein the vehicle speed control system performs a distance-related control on a detected target object, and wherein the motor vehicle is also kept at a standstill due to the standing still target object, characterized in that the automatic start-up function when detecting a moving object (F) is automatically deactivated between the target object located at a standstill (VF) and the motor vehicle (EF).

2. The method according to claim 1, characterized in that the automatic start-up function when detecting a movable object (F) between the stationary target object (VF) and the motor vehicle (EF) is only deactivated when the direction of movement of the detected object (F ) runs substantially perpendicular to the vehicle longitudinal axis.

3. The method according to any one of the preceding claims, characterized in that the automatic starting function is deactivated by the distance-related driving speed control system is deactivated.

4. The method according to claim 4, characterized in that when deactivating the distance-related cruise control system, the motor vehicle (EF) is still kept at a standstill.