Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication
Reexamination Certificate
2002-03-13
2004-12-21
Cuchlinski, Jr., William A. (Department: 3661)
Data processing: vehicles, navigation, and relative location
Vehicle control, guidance, operation, or indication
C477S110000, C180S197000, C701S051000
Reexamination Certificate
active
06834217
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a method and a device for determining a variable describing the speed of at least one driven wheel of a motor vehicle, for ascertaining variables describing the respective wheel speeds for the remaining driven wheels of the motor vehicle, and for determining a variable describing the output rpm of a transmission of the motor vehicle. The present invention also relates to a control unit for a traction control system or a in vehicle-dynamics control system of a motor vehicle. To control the drive slip and/or the vehicle dynamics, the control unit determines a variable describing the speed of at least one driven wheel of the motor vehicle. Variables describing the respective wheel speeds for the remaining driven wheels of the motor vehicle, and a variable describing the output rpm of a transmission of the motor vehicle are available to the control unit. The present invention also relates to a memory element for a control unit of a traction control system or a vehicle-dynamics control system of a motor vehicle. The memory element may be a read-only memory, a random-access memory or a flash memory. Stored in the memory element is a computer program that is executable on a computing element, including a microprocessor. Finally, the present invention also relates to a computer program that is executable on a computing element, including a microprocessor.
BACKGROUND INFORMATION
It is believed that various methods and devices for determining a speed variable of at least one driven wheel of a motor vehicle are available.
Thus, for example, German Published Patent Application No. 196 108 64 discusses a method and a device for determining a wheel speed. In that case, the rotational speed of at least one of two wheels of an axle is determined. To that end, a first variable representing the average rotational speed of the two wheels, and a second variable representing the vehicular speed are ascertained. The wheel speed is determined as a function of a comparison of a threshold value and of the difference between a value derived from the first variable and a value derived from the second variable. Upon falling below the threshold value, the rotational motion of the one wheel is determined at zero, and upon exceeding the threshold value, the rotational motion is determined at a value different from zero.
It is believed, however, that ascertaining the wheel speed as above may have the disadvantage that a variable describing the vehicular may be speed is necessary. To be able to determine a precise wheel speed, it is believed that a precise determination of the vehicular speed may be required. This may demand either very accurate estimation methods for determining the vehicular speed, for example, on the basis of the wheel speeds, or else special sensors for detecting the wheel speeds, which, however, may require too much effort and therefore may be costly. If the vehicular speed is determined as a function of the wheel speeds, only wheel speeds are available as initial quantities, based on which the rotational speed of at least one of two wheels of an axle is determined. Because of this, a systematic error may develop, since a further variable which is independent of the wheel speeds may not go into the determination of the rotational speeds.
In German Published Patent Application No. 197 26 743 is discussed a method and a device for automatically determining a differential ratio between a transmission of a motor vehicle and the wheels. In that case, a variable describing the speed of at least one wheel, and the output rpm of the transmission are determined. Furthermore, a driving-state variable describing the driving state of the motor vehicle is ascertained. If an essentially steady driving state exists, the variable describing the differential ratio is determined as a function of the variable describing the wheel speed, and the output rpm of the transmission.
An object of an exemplary embodiment and/or exemplary method of the present invention is to ascertain a variable describing the wheel speed of at least one driven wheel of a motor vehicle. In particular, it is believed that the foregoing provides for making a reliable variable describing the speed magnitude of the wheel available to a traction control system or a vehicle-dynamics control system of a motor vehicle, in spite of the failure of a speed sensor arranged at one of the wheels.
In particular, for the at least one driven wheel, the variable describing the speed may be determined as a function of the variables describing the respective wheel speeds of the remaining driven wheels, and as a function of the variable describing the transmission output rpm.
SUMMARY OF THE INVENTION
The driven wheels of a motor vehicle may be fixedly coupled via a differential to the output end of a transmission, including for front-wheel drive (FWD) and for rear-wheel drive (RWD). In the case of all-wheel drive (AWD), there may be such a fixed coupling only when no slip-encumbered components, such as a viscous coupling, are integrated into this part of the drive train. This fixed coupling exists in the case of all-wheel-drive vehicles with open differentials.
The variable describing the speed of at least one driven wheel may be determined according to the exemplary method of the present invention, given a fixed coupling of the driven wheels to the output end of the transmission. To that end, the known variables describing the respective wheel speeds of the remaining driven wheels are used. In addition, the variable describing the transmission output rpm is used. These variables are available in a control unit for the transmission, for a traction control system or for a vehicle-dynamics control system, and do not have to be determined separately.
The transmission output rpm is ascertainable with low expenditure and high accuracy. The determination is carried out, for example, by a speed sensor mounted at a suitable location on the transmission.
The exemplary method of the present invention can be used to check the performance reliability of wheel-speed sensors of the motor vehicle. For that purpose, the speed variable can be determined in succession for all wheels of the motor vehicle according to the exemplary method of the present invention and compared to the speed variable detected by the wheel-speed sensor to be checked.
Using the exemplary method of the present invention, a corresponding or comparable quantity can be formed for a wheel speed or wheel rotational speed not directly available. For example, a directly determined variable may not be available when a wheel-speed sensor is defective. Thus, using the exemplary method of the present invention, a reliable speed variable of the wheel can be made available in spite of the failure of a wheel-speed sensor. The system availability of a motor vehicle may thereby be increased, particularly in the event of a wheel-speed sensor malfunction. That is to say, the vehicle may continue to be operable in spite of the failure or defect of a wheel-speed sensor. In particular, a reliable quantity describing the speed variable of the wheel can be made available to a traction control system or a vehicle-dynamics control system of a motor vehicle in spite of a malfunction of a wheel-speed sensor. In comparison to previously used traction control systems or vehicle-dynamics control systems, when using the exemplary method of the present invention, it is believed that a system need no longer be switched into the passive state in response to a detected fault in a wheel-speed sensor. The system should continue to be available and fully operative, in spite of such a fault or failure of the wheel-speed sensor.
Such traction control systems or vehicle-dynamics control systems are discussed, for example, in the publication “
FDR—Die Fahrdynamikregelung von Bosch
” (VDC—The Vehicle Dynamics Control of Bosch) appearing in the Automobiltechnischen Zeitschrift (ATZ) 96, 1994, issue 11, on pp. 674 through 689. The yaw rate of a motor vehicle is controlled using a de
Cuchlinski Jr. William A.
Hernandez Olga
Robert & Bosch GmbH
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