Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Indication or control of braking – acceleration – or deceleration
Reexamination Certificate
1998-08-19
2001-05-29
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
C180S169000, C180S179000, C701S098000
Reexamination Certificate
active
06240357
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention relates to methods and arrangements for controlling the spacing between vehicles.
In methods for controlling the spacing of motor vehicles, the distance between a motor vehicle and a vehicle in front of it is controlled without any action by the driver by providing automatic control of the vehicle speed. For this purpose, a distance measuring arrangement emits directed electromagnetic waves such as laser or radar pulses which are reflected from the vehicle in front so that the spacing of the vehicle from a vehicle ahead and in the same lane is determined from the transit time of the pulses. The resulting vehicle spacing data are supplied to a control unit which controls the speed of the vehicle by accelerator or brake operation so that the distance from the motor vehicle in front matches a predetermined target spacing.
In conventional vehicle spacing control methods, the target distance is preassigned as a constant or corresponds to a defined safe distance which depends on the vehicle speed. With these arrangements it is not possible to vary the spacing from the vehicle in front depending, for example, on the traffic situation, or traffic density. For example, in heavy traffic, a shorter distance from the vehicle in front is often desirable in order to keep other vehicles from cutting in and thereby avoid the resulting braking of the vehicle but such spacing variation is not possible with conventional arrangements. Also, conventional arrangements cannot accommodate a driver's personal driving style, i.e. “sporting” drivers prefer a shorter distance from the vehicle in front and are skeptical of a distance control arrangement that fails to allow for this preference, whereas drivers with a “conservative” driving style choose to follow another vehicle with a greater margin of safety. In addition, there is a conventional spacing control method in which the driver can vary a preassigned target spacing by adjusting a potentiometer on the instrument panel. A disadvantage of this arrangement is that the driver must frequently manipulate an additional operating element, thus further burdening his task.
German Offenlegungsschrift No. 44 37 678 discloses a method in which the driver can establish a certain desired distance as the target distance as a function of speed by actuating the accelerator and/or the brake pedal. The selection of the desired spacing upon activation of the spacing control is accomplished when the driver, before activation of the spacing control, sets his individual desired distance, corresponding to the current speed of the vehicle, by using the accelerator or the brake pedal when following another vehicle. When the spacing from the vehicle in front corresponds to the spacing desired by the driver, the spacing control is activated by actuating a switch or operating lever, for example by actuating an operating lever on the steering wheel. The selection or variation of the desired spacing with the spacing control activated is accomplished by gradual actuation of the accelerator and/or the brake pedal to increase or decrease the spacing to another desired spacing. With the spacing control activated, the target spacing, depending on the preassigned desired spacing is determined as a function of the current vehicle speed. The target spacing as a function of vehicle speed and desired spacing may, for example, be plotted as a family of curves and stored in the control unit. Upon variation in the speed of the vehicle in front, and consequently the speed of the controlled vehicle, the target spacing is varied as a function of speed with the aid of the stored curves to maintain a corresponding following time. A disadvantage of this method is that, especially when setting the desired spacing upon activation, the vehicle operator commits himself for the ensuing period of time to that spacing reference or following time, which is then systematically followed according to the vehicle speed by way of the stored curves. But such spacing and following time values will not necessarily correspond to the individual's driving behavior so that the operator must continually correct the spacing using the brake or accelerator.
The publication “Abstandsregelung von Fahrzeugen mit Fuzzy-Control” (Spacing Regulation for Vehicles with Fuzzy Control),
Tagungsband der
3
. Dortnunder Fuzzy-Tager
, Current Data-Processing Series, Springer 1993, discloses the determination of a spacing model depending on the type of driver and the weather conditions instead of using a fixed preassigned target spacing. The type of driver is ascertained by an external sensing system but there is no provision for dependable automatic recognition of the driver type.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present investigation to provide a method and arrangement for controlling vehicle spacing which overcomes disadvantages of the prior art.
Another object of the invention is to provide a method and arrangement to control vehicle spacing that will automatically adapt to an individual driver's behavior.
These and other objects of the invention are attained by detecting and recording driver-specific pairs of values for current vehicle speed and following time from the vehicle in front (i.e. the spacing as a function of vehicle speed) when the vehicle spacing is being controlled by the driver to provide driver-specific characteristic diagrams, and thereafter automatically controlling the spacing in accordance the driver-specific characteristic diagrams.
When the driver sets a target spacing or following time for which there is as yet no characteristic diagram at the commencement of operation, because the number of characteristic diagrams recorded is not very large, the target following time setting is simply maintained.
For better adaptation to driver-specific behavior, other parameters that have an influence on the following time may also be used. For example the coefficient of friction of the driving surface may also be detected and recorded.
The driver-specific characteristic diagram may be simulated alphanumerically by key points or formulas, by fuzzy regulators, or by a neural network. Fuzzy controls and neural networks offer a better possibility of conversion especially when many parameters are taken into account that are difficult to interrelate by a formula.
In another preferred embodiment, several sets of characteristic diagrams are stored which are individually selectable by the driver. This takes account of the fact that a vehicle may be operated by several drivers, such as married couples, and also of the fact that the same driver may, according to circumstances, prefer different operating modes. Selection of the appropriate characteristic diagram for the target following time may be accomplished by an input unit or by way a driver identifying device such as a coded ignition key or the like. Further, it is possible for the system to compare the current operating mode of the driver with the stored characteristic diagrams and then select the appropriate diagram for automatic spacing control.
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Protzel, P. et al., Abstandregelung von Fahrzeugen mit Fuzzy Control, Fuzzy Logic. Theorie and Praxis. Dordmunder Fuzzy-Tage, 7. Juni 1993, Seiten 212-221, XP000645972.
“Modellgestützte Verfahren zur parameteradaptiven Regelung der Fahrzeuglängsdynamik” by Germann et al. pp. 84-92. Automatisierungstechnik 45 (1997).
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Baker & Botts L.L.P.
Cuchlinski Jr. William A.
Pipala Edward
Volkswagen AG
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