The invention relates to a driver assistance system for motor vehicles having two operating modes, in each mode different partial functions of the driver assistance system being activated.
A number of driver assistance systems currently exist which have the purpose of aiding the driver's tasks. A typical example of a driver assistance system is an ACC system (Adaptive Cruise Control). In the case of such a driver assistance system, the velocity of the vehicle is automatically controlled to a desired velocity definable by the driver. Furthermore, such a driver assistance system includes range sensors through which vehicles driving ahead can be determined, or the distance from vehicles driving ahead can be determined. If the distance from the vehicle driving ahead threatens to be too narrow, the velocity of the vehicle is reduced such that a safe distance to the vehicle driving ahead is maintained. In general, an ACC system is activated by a switch or a lever. For the deactivation, either the switch or the lever has to be operated again, or the vehicle brake has to be applied.
Furthermore, driver assistance systems are known which warn the driver in a critical traffic situation or automatically brake the vehicle in the event of a possible collision with an object or even initiate a self-sufficient emergency braking.
A typical driver assistance system is known from German Patent Document DE 102 18 698 A1. Here, the individual partial functions of the driver assistance system can be individually activated or deactivated by a control element by a repeated pressing or rotating of the control element. In this case, it is a disadvantage that, particularly in critical traffic situations such as during a lane change or a passing maneuver in which the driver depends on certain functions of the driver assistance system, the driver's attention is diverted from the traffic situation by the repeated rotating or pressing of the control element in order to reach the desired operating mode.
The present invention provides an improved driver assistance system by which, mainly in critical traffic situations, the driver's attention is not diverted by the activating or deactivating of certain partial functions of the driver assistance system.
According to an exemplary embodiment of the invention, the driver assistance system includes at least one control element for activating a safety operating mode of the system for the duration of operation of the control element. Advantageous further developments are described further in the following.
The exemplary driver assistance system for motor vehicles according to the invention, includes at least two operating modes, so that in each operating mode different partial functions of the driver assistance system are activated, and includes at least one control element for activating at least one operating mode of the driver assistance system. In the system, the operating mode activated by the control element is active for the duration of the operation of the control element.
The driver assistance system according to an embodiment of the invention offers the advantage that, as a result of the fast and simple manner of activating a specific operating mode, which is advantageously designed for critical traffic situations, the driver's attention is not unnecessarily diverted from the traffic situation. The control element can advantageously be a key mounted on the steering wheel. When operating the key, the driver can therefore leave both hands on the steering wheel and concentrate on the traffic action. The control element may be a separate element, specifically for activating the operative mode active as a result of a continuous operation, for example a safety operating mode, or it may be a control element through which the conventional operating mode of the driver assistance system as well as the safety mode can be activated.
Advantageously, exclusively the operating mode activated by the exemplary control element is activated for the duration of the operation of the control element. As a result, those operating modes which were previously switched active are deactivated for the duration of the operation of the control element. As soon as the driver releases the control element again, these operating modes of the driver assistance system will be activated again.
The driver assistance system according to the embodiment advantageously includes a warning function and/or an intervention function, and the operating mode activated for the duration of the operation is further developed such that, for the duration of the operation of the control element, the warning function and/or the intervention function is activated with a longer prewarning time and/or at an earlier intervention point in time.
If the driver assistance system includes, for example, a safety system where the traffic driving ahead is monitored by suitable sensors and, when a critical traffic situation is detected the driver is warned, the operating mode active during the continuous operation of the control element may be further developed such that the safety system is reparametrized in comparison to the normal operation of the safety system, so that the driver's attention is drawn earlier to a critical traffic situation.
The exemplary driver assistance system may advantageously include at least one range control function, and the operating mode activated for the duration of the operation may be further developed such that only the range control function is activated for the duration of the operation of the control element.
A driver assistance system having a range control function may, for example, be an ACC system, which has a speed adjusting function and a range control function. The operating mode active during the continuous operation is designed such that only the range control function but not the speed adjusting function is active. The velocity of the vehicle continues to be defined by the position of the accelerator pedal.
If the range control function includes a warning function, the latter may advantageously emit an acoustic, visual or haptic signal when there is a falling below a defined distance from the vehicle driving ahead. The haptic signal may, for example, be a vibrating of at least a portion of the steering wheel. If the vehicle is equipped with an active accelerator pedal, a counterforce may also be generated onto the accelerator pedal when there is a falling below the distance.
However, if the range control function includes a range adjusting function, the latter adjusts the vehicle to a predefined distance with respect to the vehicle driving ahead.
In this operating mode, the predefined distance should not be adjusted by the driver. Rather, this distance advantageously corresponds to the distance of the vehicle from the vehicle driving ahead which exists at the point in time of the activation of the safety mode. Thus, the driver's attention is not unnecessarily diverted when he activates this operating mode.
Advantageously, in this safety operating mode of the driver assistance system, which is active only during a continuing operation of the control element, there can be no falling below the automatically adjusted distance by an intervention of the driver, for example, by operating the accelerator pedal. It is therefore ensured that a collision is avoided even if the driver accidentally should further depress the accelerator pedal in a tense situation.
Advantageously, the operating mode activated for the duration of the operation of the control element can also be further developed such that another driver assistance system is activated for the duration of the operation of the control element.
If the driver assistance system is a system which, during a continuous operation of the control element, activates a range control function, a supporting system for staying within a lane and/or a warning system against leaving a lane may additionally be active, for example, for the duration of the operation.
Other objects, advantages and novel features of the present invention will become apparent from the following detailed description of the invention when considered in conjunction with the accompanying drawings.
In the following, the invention will be explained in detail with reference to the following drawings.
According to this embodiment, the ACC driver assistance system ACC can be operated in the two operating modes BM1ACC and BM_SACC. In the operating mode BM1ACC, the partial speed adjusting GR and range adjusting AR functions are activated, in which case, in the safety operating mode BM_SACC, only the partial range adjusting AR function is activated. The ACC driver assistance system is connected with the control element BE_ACC, during whose single operation, a signal a_acc is sent to the ACC driver assistance system ACC for activating the operating mode BM1.
Instead of a single operation of the control element BE_ACC for reaching the conventional operating mode BM1ACC of the ACC driver assistance system, as a result of the continuous operation of the control element BE_ACC by the signal a_s, the safety operating mode BM_SACC of the ACC driver assistance system can be activated. Simultaneously, as a result of the continuous operation of the control element BE_ACC, the lane tracking driver assistance system SH is also activated in order to additionally support the driver.
The exemplary collision warning driver assistance system AW can be operated in both operating modes BM1AW and BM_SAW. Both operating modes can be activated by the same control element BE_AW. However, in another exemplary embodiment, it is also possible to activate the two operating modes BM1AW and BM_SAW by different control elements. In the case of a single operation of the pertaining control element BE_AW, the signal a_aw(t1) activates the operating mode BM1AW. This conventional operating mode BM1AW is further developed such that, in the case of a critical situation with a prewarning time t1, an acoustic, visual or haptic signal is emitted to the driver.
Instead of a single operation of the control element BE_AW for activating the operating mode BM1AW of the collision warning driver assistance system AW, during a continuous operation of the control element BE_AW, using the signal a_aw(t2), the safety operating mode BM_SAW of the collision warning driver assistance system AW is activated. This safety operating mode BM_SAW is further developed such that the prewarning time, during which a signal is emitted to the driver because of a critical traffic situation, is increased, whereby the collision warning driver assistance system AW reacts earlier to critical traffic situations.
When the safety operating mode is deactivated, for example by releasing the control element, in the case of a previously detected “open travel”, a transition takes place from condition A by way of path ac to condition C. In the case of a previously detected vehicle driving ahead, a transition takes place from condition B by way of path bc to condition C.
The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.
Number | Date | Country | Kind |
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10 2004 054 472.7 | Nov 2004 | DE | national |
This application is a continuation of PCT International Application No. PCT/EP2005/011245, filed Oct. 19, 2005, which claims priority under 35 U.S.C. § 119 to German Patent Application No. 10 2004 054 472.7 filed Nov. 11, 2004, the entire disclosures of which are herein expressly incorporated by reference.
Number | Date | Country | |
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Parent | PCT/EP05/11245 | Oct 2005 | US |
Child | 11797890 | May 2007 | US |