Method for spacing control for a vehicle

Communications: electrical – External condition vehicle-mounted indicator or alarm – Transmitter in another vehicle

Reexamination Certificate

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Details

C340S573100, C340S576000, C701S301000

Reexamination Certificate

active

06765494

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates to methods for spacing control for a vehicle which includes an arrangement for calculating the intended spacing from a vehicle traveling in front.
A method for speed control and spacing control of a vehicle is described in the U.S. Pat. No. 5,400,864. According to that method, the current spacing and vehicle speed are registered and from these the intended values for the spacing from an object such as a motor vehicle located in front of the vehicle and the vehicle speed are determined and set automatically. In this method, a problem arises because the automatic speed control and spacing control are provided as driver-aiding systems and their acceptance by the vehicle driver depends on how closely the automatic control behavior resembles his or her own driving behavior, particularly with respect to maintaining a spacing from the motor vehicle traveling in front.
In order to solve this problem, the publication “Abstandsregelung von Fahrzeugen mit Fuzzy-Control” [Spacing control of vehicles using fuzzy control], Tagungsband Aktuell, Springer Verlag, 1993, discloses a spacing model in which the spacing depends on the driver type and the weather instead of a fixedly prescribed intended spacing. In this case, the driver type is intended to be determined by an external sensing mechanism, but no arrangement for reliable automatic identification of the driver type is described.
SUMMARY OF THE INVENTION
Accordingly, it is an object of the present invention to provide a method for spacing control for a vehicle which overcomes the disadvantages of the prior art.
Another object of the invention is to provide a method for vehicle spacing control by which the spacing can be adapted to the driving characteristics of the vehicle driver so that its acceptability to the vehicle driver is improved.
These and other objects of the invention are attained by providing a method and an arrangement for controlling the spacing of a vehicle from an object in front of the vehicle wherein the intended spacing from the object is determined utilizing a transfer function and including the step of adapting the transfer function for determining the intended spacing to an individual driving characteristic of a particular vehicle driver. In accordance with the invention, the adaptation is carried out so that the following time characteristic of the vehicle driver with respect to a vehicle traveling in front is maintained by the determination of the intended spacing. This is preferably carried out while the vehicle is being operated, that is to say during operation by the particular vehicle driver to whose driving characteristic the intended spacing determination is to be adapted.
The invention takes into account the fact that each vehicle driver, depending on his or her driving style, maintains a different spacing from the vehicle traveling in front, depending on the vehicle speed. A sporty driver will have a tendency to make full use of the limits permitted to him or her, that is to say, will keep the spacing from the vehicle traveling in front as small as possible. A defensive vehicle driver will tend to select a greater spacing.
According to a preferred embodiment of the invention, the arrangement for determining the intended vehicle spacing constitutes a fuzzy controller having at least two input variables, i.e., the current vehicle speed and at least one further input variable, for example the prevailing road friction or a variable for the current visibility conditions, and the intended spacing. The fuzzy controller has input membership functions with which truth values of linguistic values are determined for the input variables, has a control mechanism in which truth values for the intended spacing are determined from the truth values for the input values, and has an output membership function with which the intended spacing which is to be adjusted according to the input variables is determined from the truth values of the intended spacing.
In a preferred embodiment of the invention, value ranges for the driving speed and for the further input variables are determined in a first step and, in this arrangement, during the adaptation of an existing fuzzy controller, reference is made back to the value ranges covered by the input membership functions. In a second step, a number of classes is defined over the determined value ranges for the input variables. This definition can be carried out arbitrarily in the position or in the number of classes, but it can also follow the position and/or number of the existing input sets. Following this, in a learning phase, value combinations of the input variables and of the spacing maintained are processed by data set. In order to shorten the learning phase, the value combinations can be presented so that measured data which are not decisive for control are not used during the adaptation. In a further step, the classes defined in the second step are altered as a function of these registered value combinations. After completing the class adaptation, the adapted membership functions and the rules of the fuzzy controller are set up.
During the adaptation of the fuzzy controller, when defining the classes in the second method step, reference can be made back to the already available input membership functions and the vehicle speed and also to the further input variables.
During the definition of the classes over the value ranges of the input variables, points of intersection of a spacing to be maintained in the classes in the characteristic map are formed at the same time, and these constitute the rules of the fuzzy controller and also the sets of the output membership function.
Moreover, provision can be made to define, for specific ranges of the input variables, a value of the spacing which remains constant even during the adaptation of the new membership functions.
According to one embodiment of the invention, areas are defined around the classes within the value range of the input variables in which areas no new classes are formed, the value combinations of the input variables and the spacing which occur and which fall in one of these areas but in none of the classes are distributed to the adjacent classes in accordance with a weighting, and the areas surrounding these classes are altered in width in accordance with the hits of value combinations thus generated. This produces free areas in which, when a value combination arrives, a new class is formed. Following the generation of a new class, according to a preferred embodiment, an existing class is removed, with the result that the number of classes remains constant. When deciding which class is to be removed, the widest range of factors may play a part, for example the hit rate in one class as a result of value combinations already registered. At the time of removing a class, the value combinations of input variables and of the spacing value already assigned to said class i.e., the hits; are distributed to the adjacent classes in accordance with a weighting, preferably in the ratio of their distance over the value range of the input variables to the class to be removed. In addition, if appropriate, the adjacent classes are altered in accordance with the value combinations assigned to them.
For the generation of the new sets of the input membership functions on the basis of the newly formed classes, each class preferably forms at least one reference point of an input membership function. For the method according to the invention it is not necessarily required to cover the entire value range of the input variables by registered value combinations of the input variables and of the output variable. For such value ranges, and for value ranges having classes of extremely prominent spacing values at the point of intersection with classes of other input variables, a local and/or global interpolation can be carried out.


REFERENCES:
patent: 5189619 (1993-02-01), Adachi et al.
patent: 5357438 (1994-10-01), Davidian
patent: 5375060 (1994-12-01), Nöcker
patent: 540086

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